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Interdisciplinary PhD in Nanoscience and Nanotechnology - NanoDTC (3.5+ years)
- Ray Dolby Centre
- Research - New
- Studying Physics
Interdisciplinary PhD studentships in Nano at the University of Cambridge (3.5 years)
The Centre for Doctoral Training in Nanoscience and Nanotechnology ( NanoDTC ) invites applications from top-class independent-thinking students for its Interdisciplinary PhD programme in Nanoscience and Nanotechnology.
We welcome applicants from across Physical Sciences including: Chemistry, Physics, Materials, and Engineering.
About the programme
Our new PhD programme will cover bespoke training in key areas of Nano to translate exploratory nanoscience into impactful technologies, and to stimulate new interactions that support our vision.
The initial six-month project selection and intensive training period will offer high-quality advanced-level training through:
– a new integrated module on Applied Nanoscience, covering lectures, practicals and data analysis on key topics
– a system integration module covering practical electronics and a group project in a host lab
– a short (8-week) and longer (10-week) experimental research project
– a module on innovation and entrepreneurship for scientists
At the six month point the final selection of an interdisciplinary PhD research project will be made, with two supervisors from two research groups in the Departments of Physics, Chemistry, Engineering, Materials or another relevant department across the University. Normally the midi project would be closely linked to the PhD choice so that the students have a chance to get some experience in the prospective PhD lab before confirming their choice.
In terms of themes, research is clustered into four broad themes:
- Designer Nanomaterials - DNA origami, 1D/2D nanomaterials, biomimetics, self-assembly, hybrids, MOFs
- Designer Nanofunctions - quantum, photophysical, electronic, ionic – solid state/ biological, magnetic, plasmonic, optoelectronic, neuromorphic
- Scale-up and Systems - Nanomanufacturing, cellular manufacturing, sensors /actuators, bioelectronics, IoT, theranostics
- Frontiers in Nano-Metrology - in-situ nanometrology, electron microscopies, ultrafast photophysics, X-ray, THz, superresolution, modelling
Application areas include Energy efficient ICT, Solar, Batteries, Quantum, Catalysis, Waste Utilisation, Biosensing, Targeting of disease, Green manufacturing and many more...
An important part of the programme, beyond core technical training and research, is building a holistic approach for doing science, which includes understanding and applying principles of sustainability and inclusivity in all aspects of research, applications, entrepreneurship and communication.
Professional skills training and cohort-based activities are other important elements of the programme. These are provided through a range of cross-cohort events throughout the programme, such as student-led conferences, research seminars, onsite and offsite research and career development workshops led by internal and external experts, and other activities.
The programme is suited to students who are keen to move beyond the silo of a single scientific discipline, to develop a holistic research approach that is problem focussed, and to be part of a vibrant research community . The programme welcomes applicants from across the physical sciences including Chemistry, Physics, Materials, Engineering and any other subject that gives applicants a good background to undertake a PhD in nanoscience and nanotechnology.
Students completing the programme go on to careers in industry and academia, and a significant number have also set up their own startups .
This programme builds on a previous MRes+PhD format and is expected to be open for students wishing to start in Oct 2024 after final approval of course details very soon.
For information on how to apply see https://www.nanodtc.cam.ac.uk/apply/ . You can also contact one of our current MRes+PhD students to find out more about the broader NanoDTC Centre and the new Interdsciplinary PhD format.
For more information, please email us - [email protected]
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PhD/MPhil Nano and Functional Materials / Overview
Year of entry: 2024
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The standard academic entry requirement for this PhD is an upper second-class (2:1) honours degree in a discipline directly relevant to the PhD (or international equivalent) OR any upper-second class (2:1) honours degree and a Master’s degree at merit in a discipline directly relevant to the PhD (or international equivalent).
Other combinations of qualifications and research or work experience may also be considered. Please contact the admissions team to check.
Full entry requirements
Apply online
In your application you’ll need to include:
- The name of this programme
- Your research project title (i.e. the advertised project name or proposed project name) or area of research
- Your proposed supervisor’s name
- If you already have funding or you wish to be considered for any of the available funding
- A supporting statement (see 'Advice to Applicants' for what to include)
- Details of your previous university level study
- Names and contact details of your two referees.
Programme options
Full-time | Part-time | Full-time distance learning | Part-time distance learning | |
---|---|---|---|---|
PhD | Y | Y | N | N |
MPhil | Y | Y | N | N |
Programme description
The Department of Materials encompasses an exceptional breadth of research and training in materials, from design and development, to performance and protection and management and marketing. Our multidisciplinary research activity covers broad, socially relevant materials themes that allow us to meet the needs of industry and society.
Our research is organised into eight research themes , although research projects often involve researchers in other groups, other schools, other universities and industry.
Nano and functional materials research covers the development and study of novel nanomaterials and their assembly into multi-functional structures and devices for their application in key technological areas.
The Department provides first-class opportunities and facilities for our students to study specific subjects in-depth to a postgraduate research degree level. There are flexible study packages available, as well as an extensive range of postgraduate research studentships and projects , and funding, scholarships and awards with many of our research students sponsored by a variety of Department, University and industry resources.
Visit our research projects page to browse our range of currently available projects.
For entry in the academic year beginning September 2024, the tuition fees are as follows:
- PhD (full-time) UK students (per annum): Band A £4,786; Band B £7,000; Band C £10,000; Band D £14,500; Band E £24,500 International, including EU, students (per annum): Band A £28,000; Band B £30,000; Band C £35,500; Band D £43,000; Band E £57,000
- PhD (part-time) UK students (per annum): Band A £2393; Band B £3,500; Band C £5,000; Band D £7,250; Band E 12,250 International, including EU, students (per annum): Band A £14,000; Band B £15,000; Band C £17,750; Band D £21,500; Band E £28,500
Further information for EU students can be found on our dedicated EU page.
The programme fee will vary depending on the cost of running the project. Fees quoted are fully inclusive and, therefore, you will not be required to pay any additional bench fees or administration costs.
All fees for entry will be subject to yearly review and incremental rises per annum are also likely over the duration of the course for Home students (fees are typically fixed for International students, for the course duration at the year of entry). For general fees information please visit the postgraduate fees page .
Always contact the Admissions team if you are unsure which fees apply to your project.
Scholarships/sponsorships
There are a range of scholarships, studentships and awards at university, faculty and department level to support both UK and overseas postgraduate researchers.
To be considered for many of our scholarships, you’ll need to be nominated by your proposed supervisor. Therefore, we’d highly recommend you discuss potential sources of funding with your supervisor first, so they can advise on your suitability and make sure you meet nomination deadlines.
For more information about our scholarships, visit our funding page or use our funding database to search for scholarships, studentships and awards you may be eligible for.
Contact details
Our internationally-renowned expertise across the School of Natural Sciences informs research led teaching with strong collaboration across disciplines, unlocking new and exciting fields and translating science into reality. Our multidisciplinary learning and research activities advance the boundaries of science for the wider benefit of society, inspiring students to promote positive change through educating future leaders in the true fundamentals of science. Find out more about Science and Engineering at Manchester .
Programmes in related subject areas
Use the links below to view lists of programmes in related subject areas.
- Nano and Functional Materials
Regulated by the Office for Students
The University of Manchester is regulated by the Office for Students (OfS). The OfS aims to help students succeed in Higher Education by ensuring they receive excellent information and guidance, get high quality education that prepares them for the future and by protecting their interests. More information can be found at the OfS website .
You can find regulations and policies relating to student life at The University of Manchester, including our Degree Regulations and Complaints Procedure, on our regulations website .
PhD Opportunities -->
Below you will see a list of currently available PhD projects being offered by UCL supervisors in the Quantum Technologies Area. To apply, you must first have contacted and discussed the project(s) you are interested in with the prospective supervisor(s). Having agreed with the supervisor to apply for a PhD studentship, applications should then be submitted via the LCN PhD portal .
Selected students must also submit an application for admission via the UCL Application Portal – your chosen supervisor will be able to confirm the programme to apply for. Please note that if you already submitted an application via the UCL Application Portal (e.g. for a UCL CDT) you do not need to do this again.
The PhD studentships offered are fully funded (including tuition fees and stipend) by EPSRC and open to both Home and Overseas students. The duration of the studentship is four years.
Theory and modelling of cryogenic semiconductor qubits
Project: Details
Contact: Andrew Fisher
Location: UCL, London Centre for Nanotechnology
Closing date: Friday 19 July 2024, 5pm
Fundamental physics and applications with quantum levitated optomechanics
Contact: Peter Barker
Location: UCL, Physics & Astronomy
Closing date: Friday 19 April 2024, 5pm
Electric Field Control of Quasiparticle Wavefunctions in Organic Semiconductors
Contact: J ochen Blumberger
Solid-state cavity quantum electrodynamics
Contact: Jon Breeze
Quantum sensing technology and effective computational models for early detection of Alzheimer’s disease
Contact: Neil Burgess
Location: UCL, Institute of Cognitive Neuroscience
Quantum metrology with triatomic molecules to probe physics beyond the Standard Model
Contact: Luke Caldwell
Picosecond Accuracy Time Synchronisation for Quantum Communication Networks
Contact: Kari Clark
Location: UCL, Electronic and Electrical Engineering
Fabricating single atom lattices to explore quantum science and technology
Contact: Taylor Stock
Coherence and Entanglement in the Attosecond Domain
Contact: Carla Figueira de Morisson Faria
Tensor Networks for Quantum Simulation and Quantum Software
Contact: Andrew Green
Hybrid Quantum Information Processing with Rydberg atoms and Superconducting Circuits
Contact: Stephen Hogan
Closing date: Friday 19 April 2024, 5pmC
An electrically addressable spin qubit in InGaAs
Contact: Stuart Holmes
Engineering Correlation Effects in Quantum Structures
Contact: Sanjeev Kumar
Coherent coupling between magnons and photons using superconducting resonators at the two-dimensional limit
Contact: Hidekazu Kurebayashi
Quantum sensing for biology with optically addressable spin defects
Contact: Benjamin Miller
Location: UCL, London Centre for Nanotechnology/Medical Physics and Biomedical Engineering
Superconducting quantum circuits for high-sensitivity magnetic resonance
Contact: John Morton
Investigating the quantum advantage of non-classical light sources for the control of biological systems
Contact: Alexandra Olaya-Castro
Precision tests on the quantum nature of gravity
Contact: Jonathan Oppenheim
New Quantum Phenomena in Semiconductor Nanostructures
Contact: Michael Pepper
Next-generation quantum sensors for medical applications
Contact: Ferruccio Renzoni
Magnetic Domain Fluctuations
Contact: Ian Robinson
Fabrication and Measurement of Atomic-Scale Devices: Toward Quantum Computing in Germanium
Contact: Steven Schofield
Mechanisms of defect processes in 2D quantum devices
Contact: Alexander Shluger
Polariton and circuit QED lattices: quantum simulations of correlated and topological states
Contact: Marzena Szymanska
Quantum Amplification using Superconducting Nanowires
Contact: Paul Warburton
Exploiting the D-Wave QC for Exploring Energy Landscapes and Computing Thermodynamical Properties of Materials
Contact: Scott M Woodley
Location: UCL, Chemistry
======================================================
Below you will see a list of previously available PhDs being offered by PIs at the LCN.
Emergent helical dipole textures in quadruple perovskites
Contact: David Bowler
Location: UCL
Closing date: Monday, 08 January 2024
Criticality of Quantum Spin Liquids
Contact: Frank Kruger
Neuromorphic devices based on oxidation-conversion of van-der-Waals semiconductors
Contact: Antonio Lombardo
Plasmonic Enhancement of Hydrogen from Water Splitting
Contact: Geoff Thornton
New technologies for electronics fabrication in a time of unprecedented demand
Contact: Carla Perez-Martinez
Nanoscale ferroelectricity in epitaxial oxide heterostructures
Project: Details
Contact: Pavlo Zubko
Novel Two-Qubit Couplers for Superconducting Qubits
Contact: Paul Warburton
The role of cell and tissue architecture in the dispersal of patterning signals
Contact: Zena Hadjivasiliou
A Digital Twin for Quantitative Immunoassays
Contact: Michael Thomas
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PhD in Interdisciplinary Nanoscience and Nanotechnology
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Course closed:
Interdisciplinary Nanoscience and Nanotechnology is no longer accepting new applications.
The PhD in Interdisciplinary Nanoscience and Nanotechnology (NanoDTC) will train the next generation of academic and industry leaders who can transcend subject boundaries, deep-connect and transform knowledge, promote positive research culture, and bring agility and new holistic vision to addressing societal grand challenges. The programme will welcome applicants from across the physical sciences including Chemistry, Physics, Materials, Engineering and any other subject that gives applicants a good background to undertake a PhD in nanoscience and nanotechnology.
The first six months of the programme will provide advanced-level training, specifically designed for students, through an integrated lectures + practicals module on Applied Nanoscience, a module on System Integration for Experimentalists and one short and one longer experimental project, prior to final selection of an interdisciplinary PhD research project between two research groups in the Departments of Physics, Chemistry, Engineering, Materials Science or another relevant department within the University. An additional module on Innovation for Scientists will help students develop a wider perspective, including training on innovation, sustainability and responsible research.
The initial training period will provide a close synergy between taught, hands-on, team and independent learning content, in order to support, challenge and stretch students beyond their varied previous backgrounds, imbuing them with ‘technical multi-lingualism’ and holistic, problem-focused thinking.
The programme’s cohort-based approach for PhD training provides opportunities for peer-to-peer learning and mutual support, and a strong network for sharing information on facilities and tools for research as well as providing fertile ground for novel research ideas. The cohort-based environment also makes for a positive social experience during a PhD, which provides benefits for students’ wellbeing.
The interdisciplinary focus of the programme will particularly benefit students who are keen to move beyond the silo of a single scientific discipline, to open new research directions at the forefront of science and its translation to technology, and to be part of a vibrant research community. The impact and potential of the entrepreneurial and innovation focused training is highlighted by the very high number of NanoDTC PhD alumni leading successful start-ups in diverse high-tech sectors in the UK.
Learning Outcomes
Knowledge and Understanding
By the end of the programme, students will have:
- broad knowledge of the discipline and a comprehensive understanding of the literature applicable to their own research in nanoscience and nanotechnology
- demonstrated originality in the application of knowledge, together with a practical understanding of how research and enquiry are used to create and interpret knowledge in their field
- shown abilities in the critical evaluation of current research and research techniques and methodologies
- acquired a range of knowledge relating to innovation and the enterprise landscape, sustainability and communication of research to a range of audiences
- learned to make connections between disparate fields of knowledge in order to see a more holistic picture
Skills and other attributes
- Gained both breadth and depth of nanoscience and technology topics, including both their science and their application, beyond their first-degree subject
- Developed skills in a diverse range of practical techniques in nanoscience research, appreciating the advantages and shortcomings of each method
- Learned to apply practical electronics and mechanical skills for design of experimental systems in laboratories
- Developed a problem-based approach to research and development, drawing in tools and methods called for by the specific problem at hand
- Learned to conduct scientific research independently and effectively, identifying and following productive lines of enquiry with minimal supervision
- Learned to present their work through different media and to varied audiences ranging from members of the public to expert researchers in their specific area
- Learned to consider the wider impact of their research in society
- Developed effective team-working skills and learn to manage their own work effectively
- Learned to identify and develop innovation opportunities that may be suitable for commercialisation
The Postgraduate Virtual Open Day usually takes place at the beginning of November. It’s a great opportunity to ask questions to admissions staff and academics, explore the Colleges virtually, and to find out more about courses, the application process and funding opportunities. Visit the Postgraduate Open Da y page for more details.
The NanoDTC contributes to the Postgraduate Open Da y programme for participating departments, including Physics and Chemistry.
Departments
This course is advertised in the following departments:
- Department of Chemistry
- Department of Materials Science and Metallurgy
- Department of Physics
- Department of Engineering
- Department of Chemical Engineering and Biotechnology
Key Information
3-4 years full-time, 4-7 years part-time, study mode : research, doctor of philosophy, department of physics this course is advertised in multiple departments. please see the overview tab for more details., course - related enquiries, application - related enquiries, course on department website, dates and deadlines:, michaelmas 2024 (closed).
Some courses can close early. See the Deadlines page for guidance on when to apply.
Funding Deadlines
These deadlines apply to applications for courses starting in Michaelmas 2024, Lent 2025 and Easter 2025.
Similar Courses
- Engineering MPhil
- Engineering PhD
- Chemistry MPhil
- Connected Electronic and Photonic Systems MRes
- Photonic and Electronic Systems EPSRC CDT PhD
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Are you a UK or International Student?
Transferring technology from the laboratory to the workplace or health centre, key course details.
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan, Apr or Jul 2025 | £ 4,786 |
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan, Apr or Jul 2025 | £ 2,393 |
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan 2025 | £ 4,786 |
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan, Apr or Jul 2025 | £ 23,100 |
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan, Apr or Jul 2025 | £ 11,550 |
Start Date | Tuition Fees - Year 1 |
---|---|
Oct 2024 or Jan 2025 | £ 23,100 |
Course Overview
Start dates: PhD/MPhil - 1st October, 1st January, 1st April & 1st July.
At Swansea University, the emphasis of our nanotechnology research is on the development of applications-driven research and the transfer of technology from the laboratory to the workplace or health centre.
Interaction with industry is a key component of the centre’s strategy. We are a world-leader in power electronics, telecommunications, nanotechnology and biometrics and modelling of nanoelectronic devices research.
With our enviable reputation for research in Nanotechnology, Swansea University provides an excellent base for your research as a PhD or MPhil student in Nanotechnology.
Recent PhD theses supervised in the area of Nanotechnology at Swansea University include:
- The application of semiconductor technology for effective single cell studies
- Cellular uptake and trafficking of nanoparticles
- Micro and Nano particle drug delivery systems
- ''Practical network coding schemes for energy efficient long term evolution radio access networks''
- Study of the uptake of nanoparticles by cells
- Nanoplasmonics biosensing based on dipole nanoantenna
Our Centre for Nanohealth is one of the UK’s pioneering centres for nanoscience teaching and research.
This 1600m2 purpose build open access facility provides a technology and innovation base for industry and academia in Wales, UK and beyond. To date CNH has initiated many collaborative projects with industry and other HEIs realising more than £20 Million further investment.
The CNH started life as growing activity between Swansea’s Multidisciplinary Nanotechnology Centre in the College of Engineering, and the Medical School before being developed into a major project. The £21.6M project started in 2009, funded by the European Regional Development Fund, Swansea University, Abertawe Bro Morgannwg University Health Board, Welsh Government Department for Health and Social Services and the Private Sector.
Centre for Nanohealth
Entry requirements.
Qualifications MPhil: Applicants for MPhil must normally hold an undergraduate degree at 2.1 level (or Non-UK equivalent as defined by Swansea University) in Engineering or similar relevant science discipline. See - Country-specific Information for European Applicants 2019 and Country-specific Information for International Applicants 2019 .
PhD: Applicants for PhD must normally hold an undergraduate degree at 2.1 level (or Non-UK equivalent as defined by Swansea University) in Engineering or similar relevant science discipline. See - Country-specific Information for European Applicants 2019 and Country-specific Information for International Applicants 2019 .
English Language IELTS 6.5 Overall (5.5+ each comp.) or Swansea University recognised equivalent. Full details of our English Language policy, including certificate time validity, can be found here .
We welcome applications by prospective students from around the world and look for evidence of previous study that is equivalent to the entry requirements stated above. The Postgraduate Admissions Office are happy to advise you on whether your qualifications are suitable for entry to the course you would like to study. Please email [email protected] for further information.
As well as academic qualifications, Admissions decisions may be based on other factors, including (but not limited to): the standard of the research synopsis/proposal, performance at interview, intensity of competition for limited places, and relevant professional experience.
Academic Technology Approval Scheme (ATAS) Requirement
Non UK/EU applicants are required to obtain ATAS clearance for this programme of study. Successful applicants are sent ATAS application details by the University PGR Admissions team. Further details on the ATAS scheme can be found at on the government Academic Technology Approval Scheme webpage .
Reference Requirement
As standard, two references are required before we can progress applications to the College/School research programme Admissions Tutor for consideration.
Applications received without two references attached are placed on hold, pending receipt of the outstanding reference(s). Please note that any protracted delay in receiving the outstanding reference(s) may result in the need to defer your application to a later potential start point/entry month, than what you initially listed as your preferred start option.
You may wish to consider contacting your referee(s) to assist in the process of obtaining the outstanding reference(s) or alternatively, hold submission of application until references are sourced. Please note that it is not the responsibility of the University Admissions Office to obtain missing reference(s) after our initial email is sent to your nominated referee(s), requesting a reference(s) on your behalf.
The reference can take the form of a letter on official headed paper, or via the University’s standard reference form. Click this link to download the university reference form .
Alternatively, referees can email a reference from their employment email account, please note that references received via private email accounts, (i.e. Hotmail, Yahoo, Gmail) cannot be accepted.
References can be submitted to [email protected] .
How you are Supervised
Your supervisor will:
- Help you develop your research plan in the early stages of your PhD
- Advise on research aims and objectives and suggest relevant training or skills courses
- Provide direction in terms of relevant literature and sources
- Give guidance on gathering, recording and analysing data
- Supervise your written work, providing constructive criticism and ensuring you keep to deadlines
- Support and advise you when it comes to presenting papers at conferences, publishing your work and attending your viva (the final oral examination of your thesis)
Welsh Provision
Tuition fees, ph.d. 3 year full time.
Start Date | UK | International |
---|---|---|
October 2024 | £ 4,786 | £ 23,100 |
January 2025 | £ 4,786 | £ 23,100 |
April 2025 | £ 4,786 | £ 23,100 |
July 2025 | £ 4,786 | £ 23,100 |
Ph.D. 6 Year Part Time
Start Date | UK | International |
---|---|---|
October 2024 | £ 2,393 | £ 11,550 |
January 2025 | £ 2,393 | £ 11,550 |
April 2025 | £ 2,393 | £ 11,550 |
July 2025 | £ 2,393 | £ 11,550 |
M.Phil. 2 Year Full Time
Start Date | UK | International |
---|---|---|
October 2024 | £ 4,786 | £ 23,100 |
January 2025 | £ 4,786 | £ 23,100 |
Tuition fees for years of study after your first year are subject to an increase of 3%.
You can find further information of your fee costs on our tuition fees page .
You may be eligible for funding to help support your study. To find out about scholarships, bursaries and other funding opportunities that are available please visit the University's scholarships and bursaries page .
International students and part-time study: It may be possible for some students to study part-time under the Student Visa route. However, this is dependent on factors relating to the course and your individual situation. It may also be possible to study with us if you are already in the UK under a different visa category (e.g. Tier 1 or 2, PBS Dependant, ILR etc.). Please visit the University information on Visas and Immigration for further guidance and support.
Current students: You can find further information of your fee costs on our tuition fees page .
Funding and Scholarships
You may be eligible for funding to help support your study.
Government funding is now available for Welsh, English and EU students starting eligible postgraduate research programmes at Swansea University. To find out more, please visit our postgraduate loans page.
To find out about scholarships, bursaries and other funding opportunities that are available please visit the University's scholarships and bursaries page.
Academi Hywel Teifi at Swansea University and the Coleg Cymraeg Cenedlaethol offer a number of generous scholarships and bursaries for students who wish to study through the medium of Welsh or bilingually. For further information about the opportunities available to you, visit the Academi Hywel Teifi Scholarships and Bursaries page.
Additional Costs
Access to your own digital device/the appropriate IT kit will be essential during your time studying at Swansea University. Access to wifi in your accommodation will also be essential to allow you to fully engage with your programme. See our dedicated webpages for further guidance on suitable devices to purchase, and for a full guide on getting your device set up .
You may face additional costs while at university, including (but not limited to):
- Travel to and from campus
- Printing, photocopying, binding, stationery and equipment costs (e.g. USB sticks)
- Purchase of books or texts
- Gowns for graduation ceremonies
How to Apply
Once you have identified a topic area within which you would like to work, we recommend that you submit a research proposal and discuss this with an Admissions Tutor for the subject area before making an application. You can email [email protected] to express your interest in a PhD or MPhil Nanotechnology.
Apply online and track your application status for the PhD or MPhil Nanotechnology at www.swansea.ac.uk/applyonline
If you're an international student, find out more about applying for the PhD or MPhil Nanotechnology www.swan.ac.uk/international/students/apply
Suggested Application Timings
In order to allow sufficient time for consideration of your application by an academic, for potential offer conditions to be met and travel / relocation, we recommend that applications are made before the dates outlined below. Please note that applications can still be submitted outside of the suggested dates below but there is the potential that your application/potential offer may need to be moved to the next appropriate intake window.
October Enrolment
UK Applicants – 15th August
EU/International applicants – 15th July
January Enrolment
UK applicants – 15th November
EU/International applicants – 15th October
April Enrolment
UK applicants – 15th February
EU/International applicants – 15th January
July Enrolment
UK applicants – 15th May
EU/International applicants – 15th April
EU students - visa and immigration information is available and will be regularly updated on our information for EU students page.
PhD Programme Specification
Award Level (Nomenclature) | PhD in Nanotechnology |
---|---|
Programme Title | Nanotechnology |
Director of Postgraduate Research | |
Awarding Body | Swansea University |
Department/School | Engineering |
Subject Area | Medical Engineering |
Frequency of Intake | October, January, April, June |
Location | Bay Campus |
Mode of Study | Full/Part time |
Duration/Candidature | 3/6 years |
FHEQ Level | 8 |
External Reference Points | QAA Qualification Descriptors for FHEQ Level 8 |
Regulations | Doctor of Philosophy (PhD) |
Professional, Statutory or Regulatory Body Accreditation | N/A |
N/A | |
English |
This Programme Specification refers to the current academic year and provides indicative content for information. The University will seek to deliver each course in accordance with the descriptions set out in the relevant course web pages at the time of application. However, there may be situations in which it is desirable or necessary for the University to make changes in course provision , either before or after enrolment.
Programme Summary
This PhD in Nanotechnology at Swansea will enable you to undertake a substantial project led by your own interests. It is a highly respected qualification which can present a career in academia or a wider scope for employment in fields such as education, government or the private sector. A thesis of 100,000 words will be submitted for assessment demonstrating original research with a substantive contribution to the subject area. The PhD is examined following an oral examination of the thesis (a viva voce examination or viva voce). You will acquire research skills for high-level work and skills and training programmes are available on campus for further support. There will be an opportunity to deliver presentations to research students and staff at departmental seminars and conferences. There may also be opportunities to develop your teaching skills through undergraduate tutorials, demonstrations and seminars.
Programme Aims
This PhD programme will provide doctoral researchers with:
- The opportunity to conduct high quality postgraduate research in a world leading research environment.
- Key skills needed to undertake advanced academic and non-academic research including qualitative and quantitative data analysis.
- Advanced critical thinking, intellectual curiosity and independent judgement.
Programme Structure
The programme comprises three key elements:
- Entry and confirmation of candidature
- Main body of research
- Thesis and viva voce examination
The programme comprises of the undertaking of an original research project of 3 years duration full time (6 years duration part time). Doctoral researchers may pursue the programme either full time or part time by pursuing research at the University at an external place of employment or with/at a University approved partner.
Doctoral researchers for the PhD in Nanotechnology are examined in two parts.
The first part is a thesis which is an original body of work representing the methods and results of the research project. The maximum word limit is 100,000 for the main text. The word limit does not include appendices (if any), essential footnotes, introductory parts and statements or the bibliography and index.
The second part is an oral examination ( viva voce ).
Doctoral Researcher Supervision and Support
Doctoral researchers will be supervised by a supervisory team. Where appropriate, staff from Colleges/Schools other than the ‘home’ Department/School (other Colleges/Schools) within the University will contribute to cognate research areas. There may also be supervisors from an industrial partner.
The Primary/First Supervisor will normally be the main contact throughout the doctoral research journey and will have overall responsibility for academic supervision. The academic input of the Secondary Supervisor will vary from case to case. The principal role of the Secondary Supervisor is often as a first port of call if the Primary/First Supervisor becomes unavailable. The supervisory team may also include a supervisor from industry or a specific area of professional practice to support the research. External supervisors may also be drawn from other Universities.
The primary supervisor will provide pastoral support. If necessary the primary supervisor will refer the doctoral researcher to other sources of support (e.g. Wellbeing, Disability, Money Advice, IT, Library, Students’ Union, Academic Services, Student Support Services, Careers Centre).
Programme Learning Outcomes
Upon successful completion of this programme, doctoral researchers should be able to:
Knowledge & Understanding
- Demonstrate the systematic acquisition and understanding of a substantial body of knowledge which is at the forefront of research through the development of a written thesis.
- Create, interpret, analyse and develop new knowledge through original research or other advanced scholarship.
- Disseminate new knowledge gained through original research or other advanced scholarship via high quality peer reviewed publications within the discipline.
- Apply research skills and subject theory to the practice of research.
- Apply process and standards of a range of the methodologies through which research is conducted and knowledge acquired and revised.
Attitudes and values
- Conceptualise, design and implement a project aimed at the generation of new knowledge or applications within Nanotechnology.
- Make informed judgements on complex issues in the field of Nanotechnology, often in the absence of complete data and defend those judgements to an appropriate audience.
- Apply sound ethical principles to research, with due regard for the integrity of persons and in accordance with professional codes of conduct.
- Demonstrate self-awareness of individual and cultural diversity, and the reciprocal impact in social interaction between self and others when conducting research involving people.
Research Skills
- Respond appropriately to unforeseen problems in project design by making suitable amendments.
- Communicate complex research findings clearly, effectively and in an engaging manner to both specialist (including the academic community), and non-specialist audiences using a variety of appropriate media and events, including conference presentations, seminars and workshops.
- Correctly select, interpret and apply relevant techniques for research and advanced academic enquiry.
- Develop the networks and foundations for on-going research and development within the discipline.
- Implement advanced research skills to a substantial degree of independence.
- Locate information and apply it to research practice.
Skills and Competencies
- Display the qualities and transferable skills necessary for employment, including the exercise of personal responsibility and largely autonomous initiative in complex and unpredictable situations, in professional or equivalent environments.
Progression Monitoring
Progress will be monitored in accordance with Swansea University regulations. During the course of the programme, the Doctoral researcher is expected to meet regularly with their supervisors, and at most meetings it is likely that the doctoral researcher’s progress will be monitored in an informal manner in addition to attendance checks. Details of the meetings should ideally be recorded on the on-line system. A minimum of four formal supervision meetings is required each year, two of which will be reported to the Postgraduate Progression and Awards Board. During these supervisory meetings the doctoral researcher’s progress is discussed and formally recorded on the on-line system.
Learning Development
The University offers training and development for Doctoral Researchers and supervisors ( https://www.swansea.ac.uk/research/undertake-research-with-us/postgraduate-research/training-and-skills-development-programme/ ).
Swansea University’s Postgraduate Research Training Framework is structured into sections, to enable doctoral researchers to navigate and determine appropriate courses aligned to both their interest and their candidature stage.
There is a training framework including for example areas of Managing Information and Data, Presentation and Public Engagement, Leadership and working with others, Safety Integrity and Ethics, Impact and Commercialisation and Teaching and Demonstrating. There is also range of support in areas such as training needs, literature searching, conducting research, writing up research, teaching, applying for grants and awards, communicating research and future careers.
A range of research seminars and skills development sessions are provided within the Department of Engineering and across the University. These are scheduled to keep the doctoral researcher in touch with a broader range of material than their own research topic, to stimulate ideas in discussion with others, and to give them opportunities to such as defending their own thesis orally, and to identify potential criticisms. Additionally, the Department of Engineering is developing a research culture that aligns with the University vision and will link with key initiatives delivered under the auspices of the University’s Academies, for example embedding the HEA fellowship for postgraduate research students.
Research Environment
Swansea University’s research environment combines innovation and excellent facilities to provide a home for multidisciplinary research to flourish. Our research environment encompasses all aspects of the research lifecycle, with internal grants and support for external funding and enabling impact/effect that research has beyond academia.
Swansea University is very proud of our reputation for excellent research, and for the calibre, dedication, professionalism, collaboration and engagement of our research community. We understand that integrity must be an essential characteristic of all aspects of research, and that as a University entrusted with undertaking research we must clearly and consistently demonstrate that the confidence placed in our research community is rightly deserved. The University therefore ensures that everyone engaged in research is trained to the very highest standards of research integrity and conducts themselves and their research in a way that respects the dignity, rights, and welfare of participants, and minimises risks to participants, researchers, third parties, and the University itself.
Postgraduate students in the Department of Engineering will have access to the University’s on-site library, open 24 hours a day, state-of-the-art laboratories, a year-round programme of seminars and talks, advanced computing technology and dedicated postgraduate student work rooms. The Department has developed some of the University’s strongest links with industry at a Wales, UK, and International level, and has established itself as a leader in engineering development, working in partnership with such blue chip companies such as TATA, Rolls-Royce, Airbus, BAE Systems and HP. Students can expect to benefit from close working relationships with industry experts and in many cases, gain valuable experience through industrial placements.
Career Opportunities
Having a PhD demonstrates that graduates can work effectively in a team, formulate, explore and communicate complex ideas and manage advanced tasks. Jobs in academia (eg postdoctoral research, lecturing), education, government, management, the public or private sector are possible. Examples include administrators, counsellors, marketing specialists, and researchers.
The Postgraduate Research Office Skills Development Team offer support and a training framework for example in creating a researcher profile based upon publications and setting up your own business. The Swansea Employability Academy assists students in future career opportunities, improving CVs, job applications and interview skills.
MPhil Programme Specification
Award Level (Nomenclature) | MPhil in Nanotechnology |
---|---|
Programme Title | Nanotechnology |
Director of Postgraduate Research | |
Awarding Body | Swansea University |
Department/School | Engineering |
Subject Area | Medical Engineering |
Frequency of Intake | October, January, April, June |
Location | Bay Campus |
Mode of Study | Full/Part time |
Duration/Candidature | 2/4 years |
FHEQ Level | 7 |
External Reference Points | QAA Qualification Descriptors for FHEQ Level 7 |
Regulations | Master of Philosophy |
Professional, Statutory or Regulatory Body Accreditation | N/A |
MA/MSc by Research | |
English |
This MPhil in Nanotechnology at Swansea will enable you to undertake a substantial project led by your own interests. It is a highly respected qualification which can present a career in academia or a wider scope for employment in fields such as education, government or the private sector. A thesis of 60,000 words will be submitted for assessment demonstrating original research with a substantive contribution to the subject area. The Masters is examined following an oral examination of the thesis (a viva voce examination or viva). You will acquire research skills for high-level work and skills and training programmes are available on campus for further support. There will be an opportunity to deliver presentations to research students and staff at departmental seminars and conferences.
This Masters programme will provide students with:
- Thesis and viva voce
The programme comprises of the undertaking of an original research project of 2 years duration full time (4 years duration part time). Students may pursue the programme either full time or part time by pursuing research at the University at an external place of employment or with/at a University approved partner.
Students for the Masters in Nanotechnology are examined in two parts.
The first part is a thesis which is an original body of work representing the methods and results of the research project. The maximum word limit is 60,000 for the main text. The word limit does not include appendices (if any), essential footnotes, introductory parts and statements or the bibliography and index.
Supervision and Support
Students will be supervised by a supervisory team. Where appropriate, staff from Colleges/Schools other than the ‘home’ Department/School (other Colleges/Schools) within the University will contribute to cognate research areas. There may also be supervisors from an industrial partner.
The Primary/First Supervisor will normally be the main contact throughout the student journey and will have overall responsibility for academic supervision. The academic input of the Secondary Supervisor will vary from case to case. The principal role of the Secondary Supervisor is often as a first port of call if the Primary/First Supervisor becomes unavailable. The supervisory team may also include a supervisor from industry or a specific area of professional practice to support the research. External supervisors may also be drawn from other Universities.
The primary supervisor will provide pastoral support. If necessary the primary supervisor will refer the student to other sources of support (e.g. Wellbeing, Disability, Money Advice, IT, Library, Students’ Union, Academic Services, Student Support Services, Careers Centre).
- Demonstrate the systematic acquisition and understanding of a substantial body of knowledge through the development of a written thesis.
- Create, interpret, analyse and develop new knowledge through original research or other advanced scholarship.
- Apply process and standards of a range of the methodologies through which research is conducted and knowledge acquired and revised.
- Make informed judgements on complex issues in the field of Nanotechnology often in the absence of complete data and defend those judgements to an appropriate audience.
- Communicate complex research findings clearly, effectively and in an engaging manner to both specialist (including the academic community), and non-specialist audiences using a variety of appropriate media.
- Correctly select, interpret and apply relevant techniques for research and academic enquiry.
- Develop the foundations for on-going research and development within the discipline.
- Implement independent research skills.
- Display the qualities and transferable skills necessary for employment, including the exercise of personal responsibility and initiative in complex situations.
Progress will be monitored in accordance with Swansea University regulations. During the course of the programme, the student is expected to meet regularly with their supervisors, and at most meetings it is likely that the student’s progress will be monitored in an informal manner in addition to attendance checks. Details of the meetings should ideally be recorded on the on-line system. A minimum of four formal supervision meetings is required each year, two of which will be reported to the Postgraduate Progression and Awards Board. During these supervisory meetings the student’s progress is discussed and formally recorded on the on-line system.
Learning Development
Swansea University’s Postgraduate Research Training Framework is structured into sections, to enable students to navigate and determine appropriate courses aligned to both their interest and their candidature stage.
A range of research seminars and skills development sessions are provided within the Department of Engineering and across the University. These are scheduled to keep the student in touch with a broader range of material than their own research topic, to stimulate ideas in discussion with others, and to give them opportunities to such as defending their own thesis orally, and to identify potential criticisms. Additionally, the Department of Engineering is developing a research culture that will align with the University vision and will link with key initiatives delivered under the auspices of the University’s Academies, for example embedding the HEA fellowship for postgraduate research students.
Research Environment
Swansea University’s Research Environment combines innovation and excellent facilities to provide a home for multidisciplinary research to flourish. Our research environment encompasses all aspects of the research lifecycle, with internal grants and support for external funding and enabling impact/effect that research has beyond academia.
Department of Engineering
As a postgraduate student you will have access to our on-site library, open 24 hours a day, state-of-the-art laboratories, a year-round programme of seminars and talks, advanced computing technology and dedicated postgraduate student work rooms. The Department has developed some of the University’s strongest links with industry at a Wales, UK, and International level, and has established itself as a leader in engineering development, working in partnership with such blue chip companies such as TATA, Rolls-Royce, Airbus, BAE Systems and HP. As a student you can expect to benefit from close working relationships with industry experts and in many cases, gain valuable experience through industrial placements.
Career Opportunities
Having a Master of Philosophy degree shows that you can communicate your ideas and manage tasks. Jobs in academia, education, government, management, the public or private sector are possible.
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Nanoscale Science and Technology PhD
Newcastle university.
Nanoscale Science and Technology research students in nanoLAB cross the traditional disciplinary boundaries of medicine, engineering and Read more...
- 36 months Full time degree: £4,712 per year (UK)
- 72 months Part time degree: £2,356 per year (UK)
Masters by Research Materials and Structures
University of hertfordshire.
Our research expertise in Materials and Structures specialises in areas including Advanced Materials processing, nanoparticles with Read more...
- 1 year Full time degree: £5,925 per year (UK)
- 2 years Part time degree: £2,960 per year (UK)
Nanoscience and Nanotechnology MSc
University of glasgow.
The Masters in Nanoscience & Nanotechnology teaches skills desired by modern industry for scientists and engineers doing research, Read more...
- 12 months Full time degree: £12,150 per year (UK)
Nanoscience MSc
University of strathclyde.
Why this course Our MSc Nanoscience degree explores the frontiers of science on the nanoscale. It provides a strong grounding in basic Read more...
- 12 months Full time degree: £10,800 per year (UK)
- 24 months Part time degree
Micro- and NanoMaterials and Technologies EngD
University of surrey.
Why choose this programme The Engineering Doctorate (EngD) in Micro- and NanoMaterials and Technologies (MiNMaT) is a four-year doctoral Read more...
- 54 months Full time degree
Nanotechnology and Microfabrication MSc
Bangor university.
We are one of the very few universities in the UK to offer hands-on time fabricating devices in a clean room environment and operator Read more...
- 1 year Full time degree: £10,500 per year (UK)
Micro-Nano Manufacturing PhD
Brunel university london.
Research profile In micro-nano manufacturing, researchers use a range of bench-top devices for the manufacturing of micro and Read more...
- 3 years Full time degree: £4,786 per year (UK)
- 6 years Part time degree: £2,393 per year (UK)
Nanotechnology MSc
Ucl (university college london).
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- 1 year Full time degree: £19,300 per year (UK)
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Micro and Nanotechnology (MSc)
University of southampton.
On this one-year MSc you'll gain an understanding of the micro and nanotechnology aspects of electronic engineering, with a focus on Read more...
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Nanotechnology, MSc by Research
Swansea university.
Our world-class Systems and Process Engineering Centre brings together academic expertise from across the University, incorporating Read more...
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Nanoscale Science and Technology Mphil
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Electronics and Nanoscale Engineering MPhil
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Nanotechnology and Renewable Energy MSc
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- 4 years Full time degree
Nanomedicine, MSc / PGDip / PGCert
Do you have a degree in cell and molecular biology, biochemistry, genetics, pharmacology, pharmacy, medical engineering or physics Do Read more...
- 1 year Full time degree: £8,300 per year (UK)
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Drug Delivery and Nanomedicine MRes
Drug delivery and nanomedicine is a competitive and fast-growing research area. It is driving emerging healthcare concepts Read more...
- 12 months Full time degree: £12,000 per year (UK)
Electronics and Nanoscale Engineering MSc (Research)
- 1 year Full time degree: £4,786 per year (UK)
- 2 years Part time degree: £2,393 per year (UK)
Nanoelectronics, MSc by Research
- 1 year Full time degree: £4,712 per year (UK)
- 2 years Part time degree: £2,356 per year (UK)
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PhD in Nanotechnology in UK: Universities, Admission Process, Fees and Scholarships
Zollege Team
Content Curator | Updated On - Oct 17, 2023
PhD in nanotechnology in UK is a 3-4 years research programmed offer by top universities in UK. To study in UK, applicants must have a GPA of 30 or above in order to avail PhD in nanotechnology in UK. Average tuition fee to opt for best universities for PhD in nanotechnology in UK ranges from GBP 27,300 - GBP 36,000 (INR 28,87,261.65 - INR 38,07,408.74). Applicants are required to prove their English Language proficiency by providing IELTS or TOEFL scores as per requirements of the top affordable universities in UK . Candidates with Merit or equivalent in their Master’s degree in a relevant discipline from a recognised university or institution who are passionate about working in sectors such as nano-science, nanotechnology, surface science, materials science, molecular biology, photonics, nano-materials, functional materials, surface science and molecular engineering undertake PhD in nanotechnology in UK. There are many universities and institutions in UK offering PhD in nanotechnology. The average yearly salary for a person holding PhD in nanotechnology from an educational institution in UK is GBP 50,000 (INR 50,00,000).
PhD in Nanotechnology in UK
- Why Study PhD in Nanotechnology in UK? 2.1 PhD in Nanotechnology in UK vs PhD in Nanotechnology in USA
Best Universities for PhD in Nanotechnology in UK
- Admission Process for PhD in Nanotechnology in UK 4.1 Eligibility Criteria for PhD in nanotechnology in UK 4.2 Admission Document Requirement for PhD in nanotechnology in UK
- Admission Deadline for PhD in Nanotechnology in UK 5.1 Application Fee for Universities in UK
Top Universities Entry Requirements for PhD in Nanotechnology in UK
Scholarships for phd in nanotechnology in uk, work permit, roi for top universities offering phd in nanotechnology in uk.
Degree | Doctor of Philosophy (PhD) in Nanotechnology |
Duration | Typically 3 to 4 years full-time |
Research Focus | Advanced study and research in nanomaterials, nanodevices, nanofabrication, etc. |
Universities | Well-known institutions like University of Cambridge, Imperial College London, University of Manchester, etc. |
Admission Requirements | A relevant master's degree or an exceptional bachelor's degree in a related field. Research proposal may be required. |
Funding Opportunities | Scholarships, grants, and research assistantships are often available for qualified students. |
Application Process | Online application, submission of academic transcripts, CV, letters of recommendation, and research proposal. |
Research Facilities | State-of-the-art nanotechnology labs, cleanrooms, electron microscopy facilities, etc. |
Why Study PhD in Nanotechnology in UK?
There are various reasons to study MS in UK . Some of the reasons to study PhD in nanotechnology in UK are as follows:
- UK houses some of the top 50 universities according to QS World Rankings 2023
- PhD in nanotechnology in UK facilitates candidates with a plethora of job opportunities.
- PhD in nanotechnology in UK aids students with a post-study work visa for a period of 3 years
- Students pursuing PhD in nanotechnology in UK can work 20 hours a week part-time
- Studying PhD in nanotechnology in UK helps in development of skills pertaining to research and analysis
- PhD in UK is offered by most universities in UK is recognised globally
- Due to an abundance of galleries and museums in UK, PhD in nanotechnology will be quite beneficial for students to find employment
- Candidates can apply for scholarships upto GBP 18000 (INR 18,00,000) per annum
- PhD students can work as research assistant and teaching assistants in the respective universities
PhD in Nanotechnology in UK vs PhD in Nanotechnology in USA
Duration | Typically 3 to 4 years full-time | Typically 4 to 6 years full-time |
Research Focus | Emphasis on specialized research and early involvement in your chosen topic. | Flexibility to explore various research areas before narrowing down your focus. |
Program Structure | More structured with a defined research project and coursework requirements. | More flexibility to shape your research and coursework based on your interests. |
Funding Opportunities | Scholarships, grants, and stipends available for eligible students. | Widespread availability of assistantships, fellowships, and funding options. |
Interdisciplinary | Often involves collaboration with different departments and faculties. | Strong emphasis on interdisciplinary research and collaboration. |
Research Facilities | Well-equipped laboratories and research centers with a focus on nanotechnology. | Extensive research infrastructure, including state-of-the-art facilities. |
Research Community | Close-knit academic community with a focus on depth of research. | Diverse and competitive academic environment, encouraging broader exploration. |
Application Process | Typically requires a research proposal as part of the application. | Often requires a statement of purpose outlining research interests. |
Universities in UK are quite popular with reference to education as far as research and development is concerned. The table below lists the universities in UK offering PhD in Nanotechnology and applicants can consider their preferred option and apply to UK universities :
GBP 28,600 (INR 3,022,488.0) | |
GBP 27,800 (INR 2,940,344.00) | |
GBP 53,341 (INR 5,645,763.08) | |
University of Glasgow | GBP 25750 (INR 2,723,050.00) |
University College London | GBP 26,500 (INR 2,803,420.00) |
Kings College London | GBP 26,640 (INR 2,819,507.20) |
Northumbria University | GBP 21,642 (INR 2,289,460.16) |
Nottingham Trent University | GBP 15,600 (INR 1,650,528.00) |
University of Manchester | GBP 39,500 (INR 4,182,940.00) |
Newcastle University | GBP 36,000 (INR 3,812,880.00) |
Admission Process for PhD in Nanotechnology in UK
Admission process for PhD in nanotechnology in UK is online. Candidates must check the deadlines of the universities to undergo their admission process. The admission process for PhD in nanotechnology in UK is as follows. Applicants can also check for MBA in UK Admissions Deadlines :
- Select the universities and decide the course the candidate is interested to do.
- Visit the official websites of universities.
- Check the eligibility criteria, requirements and fees.
- Upload the documents required for the application,
- Submit the application form.
- Pay the application fee (if required)
- Once selected, the candidate must apply for UK Tier 4 student visa.
Eligibility Criteria for PhD in nanotechnology in UK
Candidates must check the eligibility criteria to apply for PhD in nanotechnology in UK. The eligibility criteria for PhD in nanotechnology in UK are as follows:
- A relevant Master’s degree from a recognised university or institution
- Merit or equivalent in the relevant Master’s degree
- English language proficiency; IELTS , TOEFL, PTE
Admission Document Requirement for PhD in nanotechnology in UK
The documents required for admission in top colleges for PhD in nanotechnology in UK are as follows:
- Academic transcripts of Class 10, Class 12 and Master’s degree.
- Test Report Form of IELTS
- Two to three LORs (Letters of Recommendation)
- Latest CV (if applicable)
- Work experience documents and certificates (if applicable)
- Scanned copy of passport (first and last page)/ID
- Scanned copy of Photograph (passport-size)
Admission Deadline for PhD in Nanotechnology in UK
The admission deadline for PhD in nanotechnology in UK (September 2023 Intake) is tabulated below:
Imperial College London | 30 September, 2023 |
University of Liverpool | 31st August 2023 |
University of Cambridge | May 16, 2023 (Closed) |
1 May 2023 (Closed) | |
7 September 2023 | |
Kings College London | 28 February 2023 (Closed) |
8 October 2023 | |
1 October 2023 | |
University of Manchester | 1 February 2023 (Closed) |
Newcastle University | September 2023 |
Application Fee for Universities in UK
Table mentioned below highlights the application fee for universities offering PhD in nanotechnology in UK. Applicants can also consider UK universities without application fee :
Imperial College London | GBP 100 (INR 10,585.92) |
University of Liverpool | No application fee |
University of Cambridge | GBP 75 (INR 7,937.98) |
University of Glasgow | No application fee |
University College London | GBP 90 (INR 9,527.27) |
Kings College London | No application fee |
Northumbria University | No application fee |
Nottingham Trent University | No application fee |
No application fee | |
Newcastle University | No application fee |
The table below presents the exams to study in the UK required by universities in UK for PhD in nanotechnology:
Imperial College London | GRE not required | : 115 or above IELTS: 6.5 or above PTE: 62 or above TOEFL: 92 or above |
University of Liverpool | GRE not required | IELTS: 6.5 or above PTE: 51 or above |
University of Cambridge | Accepted | IELTS: 7.0 or above TOEFL iBT: 100 or above |
University of Glasgow | GRE not required | IELTS: 7.0 or above PTE: 68 or above |
University College London | GRE score must be 161 or above | IELTS: 6.5 or above TOEFL iBT: 92 or above PTE: 88 or above DET: 125 or above |
Kings College London | GRE not required | IELTS: 7.5 or above PTE: 75 or above TOEFL: 100 or above |
Northumbria University | GRE not required | IELTS: 6.5 or above : 62 or above |
Nottingham Trent University | GRE not required | IELTS: 6.0 or above |
University of Manchester | GRE not required | IELTS: 67.5 or above PTE: 75 or above TOEFL: 88 or above |
Newcastle University | GRE not required | IELTS: 7.5 or above PTE: 75 or above TOEFL: 100 or above |
Cost of Living in UK
The table below presents the cost of living in UK for PhD in nanotechnology in UK along with the living costs:
Imperial College London | GBP 19,580 (2,071,638.40) |
University of Liverpool | GBP 1200 (INR 126,720.00) |
University of Cambridge | GBP 14,600 (INR 1,544,168.00) |
University of Glasgow | GBP 15,900 (INR 1,681,172.00) |
University College London | GBP 14,400 (INR 1,521,312.00) |
Kings College London | GBP 1,265 (INR 133,674.20) |
Northumbria University | GBP 1,015 (INR 107,289.20) |
Nottingham Trent University | GBP 14,990 (INR 1,585,829.20) |
University of Manchester | GBP 11,940 (INR 1,260,307.20) |
Newcastle University | GBP 1309 (INR 138,290.92) |
There are various scholarships for PhD in nanotechnology in UK. The UK Scholarships for Indian Students are tabulated below:
Imperial College London | President's Scholarship | Outstanding academic performance; varies by department | Varies, including full/partial tuition |
Imperial College PhD Scholarships | Offered to international PhD applicants; academic excellence | Varies, including stipends | |
University of Liverpool | Vice Chancellor's Attainment | Based on academic excellence and country-specific eligibility | Up to £2,500 reduction in tuition |
International Scholarships | High academic achievement and residence in certain countries | Varies, partial tuition fee reduction | |
University of Cambridge | Gates Cambridge Scholarship | Outstanding intellectual ability, leadership potential | Full tuition, stipend, travel allowance |
Cambridge Trust Scholarships | Various scholarships based on academic merit | Varies, including full/partial support | |
University of Glasgow | International Leadership | Leadership qualities, academic excellence, contribution | £10,000 tuition fee discount |
GREAT Scholarships | Specific countries, academic achievement | Varies, partial tuition fee reduction | |
University College London | UCL Scholarships for Excellence | Based on academic achievement and potential | Varies, including tuition fee reduction |
IOE Centenary Masters Scholarships | Academic merit, global impact in education field | £10,000 towards tuition fees | |
Kings College London | King's Scholars Master's | Academic excellence, personal statement, references | £10,000 toward tuition |
International Hardship Fund | Financial need, facing unexpected hardship | Up to £3,000 support | |
Northumbria University | Northumbria Global Scholarships | Academic merit, specific countries | Varies, partial tuition fee reduction |
Nottingham Trent University | International Scholarships | Academic excellence, non-EU countries | Varies, up to £5,000 reduction in fees |
University of Manchester | Manchester Global Excellence | Outstanding academic performance, country-specific eligibility | £2,000 to £5,000 tuition fee reduction |
Faculty-specific Scholarships | Varies by faculty, academic merit | Varies, partial tuition fee reduction | |
Newcastle University | Vice-Chancellor's International | Academic excellence, certain countries | £4,000 or £5,000 for tuition fees |
GREAT Scholarships | Students from specific countries, academic merit | Varies, partial tuition fee reduction |
Jobs after PhD in nanotechnology in UK There are many job opportunities after PhD in nanotechnology in UK. Some of the jobs in UK are tabulated below:
Lecturer/Professor | GBP 40,500 (INR 4,285,140.00) |
Researcher | GBP 38,000 (INR 4,018,440.00) |
Nanotechonologist | GBP 35,000 (INR 3,706,800.00) |
Research Consultant | GBP 37,000 (INR 3,918,760.00) |
Scientist | GBP 30,000 (INR 3,176,400.00) |
After completion of PhD in nanotechnology in UK, a post-study work permit for 3 years is granted to find jobs in UK. Alternatively, candidates holding a job offer from an employer holding a sponsorship licence can apply for Tier 2 work permit. Furthermore, under the 3-year post-study work permit scheme, graduates can also start their own venture.
The ROI for top universities for PhD in nanotechnology in UK is tabulated below:
Imperial College London | GBP 28,600 (INR 3,022,488.0) | GBP 19,580 (2,071,638.40) | GBP 48,180 (INR 5,099,206.40) | GBP 40,500 (INR 42,87,850.00) | 15.90 |
University of Oxford | GBP 27,800 (INR 2,940,344.00) | GBP 1200 (INR 126,720.00) | GBP 29,000 (INR 3,069,320.00) | 39.66 | |
University of Essex | GBP 53,341 (INR 5,645,763.08) | GBP 14,600 (INR 1,544,168.00) | GBP 67,941 (INR 7,187,762.68) | 40.43 | |
University of Glasgow | GBP 25750 (INR 2,723,050.00) | GBP 15,900 (INR 1,681,172.00) | GBP 41,650 (INR 4,405,362.00) | 2.76 | |
University College London | GBP 26,500 (INR 2,803,420.00) | GBP 14,400 (INR 1,521,312.00) | GBP 40,900 (INR 4,332,292.00) | 0.98 | |
Kings College London | GBP 26,640 (INR 2,819,507.20) | GBP 1,265 (INR 133,674.20) | GBP 27,905 (INR 2,952,096.40) | 45.13 | |
Northumbria University | GBP 21,642 (INR 2,289,460.16) | GBP 1,015 (INR 107,289.20) | GBP 22,657 (INR 2,396,312.36) | 78.81 | |
Nottingham Trent University | GBP 15,600 (INR 1,650,528.00) | GBP 14,990 (INR 1,585,829.20) | GBP 30,590 (INR 3,236,833.20) | 32.32 | |
University of Manchester | GBP 39,500 (INR 4,182,940.00) | GBP 11,940 (INR 1,260,307.20) | GBP 51,440 (INR 5,439,795.20) | 21.26 | |
Newcastle University | GBP 36,000 (INR 3,812,880.00) | GBP 1309 (INR 138,290.92) | GBP 37,309 (INR 3,949,790.92) | 8.56 |
One can deduce that the course PhD in nanotechnology in UK is justified and appropriate. The eligibility criteria and the documents required for PhD in nanotechnology in UK have been taken into consideration. The article also discusses and demonstrates the requirements and deadlines for admission into universites to pursue PhD in nanotechnology in UK. Additionaly, the article explains the tuition fees and living costs in terms of PhD in nanotechnology in UK. Furthermore, the article describes the salaries candidtaes generally earn after completing PhD in nanotechnology in UK. To conclude, the article deeply analyses the course PhD in nanotechnology in UK.
Ques.What is a PhD in Nanotechnology?
Ans . A PhD in Nanotechnology is an advanced research degree focused on exploring and advancing the field of nanotechnology, which involves manipulating and engineering materials at the nanoscale (atomic and molecular level).
Ques.Why pursue a PhD in Nanotechnology in the UK?
Ans . The UK is home to renowned universities and research institutions that offer cutting-edge facilities and expertise in nanotechnology. Pursuing a PhD in the UK allows you to work with leading researchers and access state-of-the-art laboratories.
Ques.What are the entry requirements for a PhD in Nanotechnology?
Ans . Entry requirements vary between universities, but typically include a master's degree in a relevant field, strong academic records, research proposal, and English language proficiency (e.g., IELTS or TOEFL).
Ques.How long does a PhD in Nanotechnology take to complete?
Ans . PhD programs in the UK usually take around 3-4 years to complete on a full-time basis. Part-time options are also available, which may extend the duration.
Ques.What funding options are available for PhD students?
Ans . Funding options include scholarships, grants, research assistantships, and industry collaborations. Universities, research councils, and external organizations provide financial support.
Ques.What research areas are covered in Nanotechnology PhD programs?
Ans . Research areas may include nanomaterials, nanoelectronics, nanomedicine, nanophotonics, nanomechanics, and more. Specific focus areas depend on the university and research group.
Ques.How do I find a suitable supervisor for my PhD research?
Ans . Research the faculty members' profiles at your chosen universities. Look for researchers whose expertise aligns with your research interests and reach out to them with your research proposal.
Ques.Can I work part-time during my PhD?
Ans . While PhD programs are rigorous, some universities allow students to work part-time, either on-campus or in relevant industries. It's important to balance work and research commitments.
Ques.What career opportunities are available after completing a PhD in Nanotechnology?
Ans . Graduates can pursue academic careers, research positions in universities or research institutions, roles in industries like electronics, healthcare, energy, and materials, or entrepreneurship in nanotech startups.
Ques.Is international collaboration common in Nanotechnology research?
Ans . Yes, nanotechnology is a global field, and collaborations between researchers and institutions from different countries are common. Conferences, workshops, and joint research projects foster international partnerships.
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19 Universities in the UK offering Nanotechnology degrees and courses
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Are you looking for Nanotechnology courses? Here you can find course providers offering full-time, part-time, online or distance learning options.
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University of Surrey
THE World Ranking: 251
Bangor University
THE World Ranking: 401
Lancaster University
THE World Ranking: 155
Newcastle University
THE World Ranking: 168
University of Southampton
THE World Ranking: 97
University of Sheffield
THE World Ranking: 105
Swansea University
University of Glasgow
THE World Ranking: 87
University of Strathclyde
THE World Ranking: 301
University of Sussex
THE World Ranking: 201
Brunel University London
THE World Ranking: 351
University of Manchester
THE World Ranking: 51
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We have 13 Nanotechnology (fully funded) PhD Projects, Programmes & Scholarships for UK Students
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Nanotechnology (fully funded) PhD Projects, Programmes & Scholarships for UK Students
Fully funded phd scholarship in memristive technologies, phd research project.
PhD Research Projects are advertised opportunities to examine a pre-defined topic or answer a stated research question. Some projects may also provide scope for you to propose your own ideas and approaches.
Funded PhD Project (Students Worldwide)
This project has funding attached, subject to eligibility criteria. Applications for the project are welcome from all suitably qualified candidates, but its funding may be restricted to a limited set of nationalities. You should check the project and department details for more information.
Quantum phenomena and energy conversion in two-dimensional materials nanostructures
Competition funded phd project (uk students only).
This research project is one of a number of projects at this institution. It is in competition for funding with one or more of these projects. Usually the project which receives the best applicant will be awarded the funding. The funding is only available to UK citizens or those who have been resident in the UK for a period of 3 years or more. Some projects, which are funded by charities or by the universities themselves may have more stringent restrictions.
Space-time-varying Superconducting Surfaces for Next-Generation Quantum Computers
Rational design of photo/electrocatalysts towards green nitrogen fixation and ammonia production, advancing hyperpolarised solid-state nmr spectroscopy for materials science, competition funded phd project (students worldwide).
This project is in competition for funding with other projects. Usually the project which receives the best applicant will be successful. Unsuccessful projects may still go ahead as self-funded opportunities. Applications for the project are welcome from all suitably qualified candidates, but potential funding may be restricted to a limited set of nationalities. You should check the project and department details for more information.
Design of metamorphic proteins for stimuli-responsive nanomaterials
Programming colloidal self-assembly for advanced materials, harnessing waste-heat from challenging environments with flexible electronics, sponsored by bae systems, funded phd project (uk students only).
This research project has funding attached. It is only available to UK citizens or those who have been resident in the UK for a period of 3 years or more. Some projects, which are funded by charities or by the universities themselves may have more stringent restrictions.
EPSRC - Light-coupled NMR to design novel photo-driven chemistry and materials
Deciphering the fundamental challenges of hydrogen's thermodynamic and transport properties for its storage at ultra-low temperatures harnessing nanoporous materials, funded phd project (european/uk students only).
This project has funding attached for UK and EU students, though the amount may depend on your nationality. Non-EU students may still be able to apply for the project provided they can find separate funding. You should check the project and department details for more information.
Microwave Amplification at the Quantum Limit with Room-Temperature Maser Amplifiers
Smart switchable sensors for on-demand biosensing and cell therapy monitoring, competition funded phd project (european/uk students only).
This project is in competition for funding with other projects. Usually the project which receives the best applicant will be successful. Unsuccessful projects may still go ahead as self-funded opportunities.
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ResearchTweet
12 fully funded phd position in nanoscience & nanotechnology at university of cambridge, england i research tweet.
- Reading time: 2 mins read
Summary Of PhD Position:
We welcome applicants from across Physical Sciences including Chemistry, Physics, Materials and Engineering. Applicants will be shortlisted based on their written applications, taking into account qualifications, aspirations and experience.
About PhD Position:
We provide bespoke training in key areas of Nano, to translate exploratory nanoscience into impactful technologies, and to stimulate new interdisciplinary interactions in Nanoscience. The MRes year provides high-quality advanced-level training through lecture courses, hands-on practicals and two 8-week and one 13-week long experimental projects, prior to final selection of interdisciplinary PhD research projects between two research groups in the Departments of Physics, Chemistry, Engineering, Materials or another relevant department across the University.
How To Apply?
All applicants with non-UK qualifications should see this link to find out what grades and degrees they need to have achieved in order to meet the equivalent academic entry requirements. Applicants should have an interest in innovation, nanoscience and nanotechnology, and be motivated to work across traditional disciplinary boundaries.
Official Notification
About the university:.
Cambridge is a globally diverse institution and our students come from over 147 different countries. Our researchers collaborate with colleagues worldwide, and the University has established partnerships in Asia, Africa, the Americas and Europe. As of September 2018, Cambridge had more than 298,000 living alumni, with significant numbers in the UK, Australia, Canada, France, Germany, the People’s Republic of China, Hong Kong, Singapore and the USA.
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Nanotechnology MSc
London, Bloomsbury
This MSc is designed for graduates from the physical sciences and relevant engineering disciplines who wish to develop skills in this new and exciting area. Nanotechnology is rapidly establishing itself as a key technology, in industries ranging from microelectronics to healthcare, with a consequent demand for appropriately trained graduates.
UK tuition fees (2024/25)
Overseas tuition fees (2024/25), programme starts, applications accepted.
Applications closed
Applications open
- Entry requirements
A minimum of an upper second-class Bachelor's degree in a relevant discipline from a UK university or an overseas qualification of an equivalent standard.
The English language level for this programme is: Level 1
UCL Pre-Master's and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.
Further information can be found on our English language requirements page.
If you are intending to apply for a time-limited visa to complete your UCL studies (e.g., Student visa, Skilled worker visa, PBS dependant visa etc.) you may be required to obtain ATAS clearance . This will be confirmed to you if you obtain an offer of a place. Please note that ATAS processing times can take up to six months, so we recommend you consider these timelines when submitting your application to UCL.
Equivalent qualifications
Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website .
International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.
About this degree
The programme introduces students to, and provides training in, the skills essential for almost all fields of nanotechnology research, including key laboratory skills and techniques in planning, building devices, analysis, and results comparison. The core lecture programme covers essential topics in physics, electrical and electronic engineering, and biology.
Who this course is for
The programme is designed for graduates from the physical sciences and from relevant engineering disciplines who wish to develop the skills necessary for a career in this field, either as industrial researchers, technical managers or academic researchers.
What this course will give you
The London Centre for Nanotechnology (LCN) is a new UK-based multidisciplinary enterprise operating at the forefront of science and technology.
Forming a bridge between the physical and biomedical sciences, it brings together two of the world's leading institutions in nanotechnology, UCL (University College London) and Imperial College London.
The centre aims to provide leading-edge training in nanotechnology and students on this programme benefit from excellent new facilities, including a £14 million research building furnished with state-of-the art equipment, and a £1 million teaching facility in UCL Electronic & Electrical Engineering.
The foundation of your career
This MSc programme provides a broad and comprehensive coverage of the technological and scientific foundations of nanotechnology, from the basis of the fabrication of nanostructures for advanced device applications, to fundamental quantum information and molecular biophysics, from nanotechnology in life science to nanotechnology in healthcare, and from experimental technology to theoretical modelling. Nanotechnology MSc graduates are expertly equipped either to pursue PhD study or become consultants or engineers in a wide range of nanotechnology fields.
Employability
Recent graduates have gone on to work as engineers for companies including EDF Energy and Intel, as analysts and consultants for firms including Standard Bank PLC and DN Capital, or to undertake PhD study at the Universities of Oxford, Bath and Glasgow.
The EEE department is conveniently located in the heart of London and has deep industry connections, providing unique and invaluable opportunities to students. We collaborate with world-leading industries across most of our Masters provision. During your time with EEE, you will gain an excellent understanding of applying theory to practice, in the form of guest lectures, invited seminars, site visits and placements as well as our world-renowned academic team bringing their own industry experience to the table.
Accreditation
Accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.
Teaching and learning
The programme is delivered through a combination of lectures, laboratory classes, tutorials and seminars.
Student performance is assessed through coursework, laboratory notebooks, case studies, written examination, a dissertation, and written and oral presentations.
The number of contact hours per week with academic staff will vary. But as a rough guideline students can expect 12 to 16 contact hours in a typical week, averaged across term, across all activities (lectures, labs, tutorials and workshops). In addition students will generally need to devote a similar amount of time each week to self-directed study (for instance reviewing taught material and completing coursework).
A Postgraduate Diploma (120 credits) is offered. The diploma consists of six core modules (75 credits) and three optional modules (45 credits).
The taught component of the programme consists of six compulsory modules (mostly in Term one) plus a selection of three optional modules that are chosen from from a list of nine (mostly in Term two). In addition, you will undertake an individual research project (mostly in Term three) in which you write a dissertation.
Compulsory modules
Optional modules.
Please note that the list of modules given here is indicative. This information is published a long time in advance of enrolment and module content and availability are subject to change. Modules that are in use for the current academic year are linked for further information. Where no link is present, further information is not yet available.
Students undertake modules to the value of 180 credits. Upon successful completion of 180 credits, you will be awarded an MSc in Nanotechnology. Upon successful completion of 120 credits, you will be awarded a PG Dip in Nanotechnology.
Accessibility
Details of the accessibility of UCL buildings can be obtained from AccessAble accessable.co.uk . Further information can also be obtained from the UCL Student Support and Wellbeing team .
Fees and funding
Fees for this course.
Fee description | Full-time | Part-time |
---|---|---|
Tuition fees (2024/25) | £19,300 | £9,650 |
Tuition fees (2024/25) | £37,500 | £18,750 |
The tuition fees shown are for the year indicated above. Fees for subsequent years may increase or otherwise vary. Where the programme is offered on a flexible/modular basis, fees are charged pro-rata to the appropriate full-time Master's fee taken in an academic session. Further information on fee status, fee increases and the fee schedule can be viewed on the UCL Students website: ucl.ac.uk/students/fees .
Additional costs
The students are expected to have their own computer/laptop, in order to carry out independent study and any programming assignments.
For more information on additional costs for prospective students please go to our estimated cost of essential expenditure at Accommodation and living costs .
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The Institution of Engineering and Technology (IET) also awards competitive scholarships for postgraduate study, for details visit www.theiet.org
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There is an application processing fee for this programme of £90 for online applications and £115 for paper applications. Further information can be found at Application fees .
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Fully funded PhD in Physics of Photonic Nanosystems and DNA Nanotechnology
Our interdisciplinary group works at the boundary between DNA nanotechnology and nanophotonics for a wide variety of applications ranging from quantum optics to diagnostics. Currently, two focus areas of research involve the development and exploitation of: DNA origami in combination with dielectric particles for construction of nanodevices for chiral sensing, DNA based force sensors to visualize and quantify nanoscale forces between synthetic particles in smart materials.
Having recently been awarded multiple prestigious grants we are seeking outstanding PhD candidates to build upon the group's expertise to further develop these exciting areas of research.
Your Profile:
▪ Masters or Diploma in Physics, Chemistry, Biotechnology, Engineering or related fields ▪ Outstanding academic achievements and relevant experimental research experience ▪ Understanding of nanophotonics and/or DNA nanotechnology ▪ Excellent communication skills and proficiency in English
Internationally competitive salaries (starting at 58’000 CHF/year for PhD students, including pension and social charges) that ensure an excellent standard of living. Work in an interdisciplinary, multicultural and dynamic environment with state-of-the-art technology and application relevant research questions. Collaborations, including planned intenational research stays.
Start Date: End of 2024/beginning of 2025 (Flexible) Applications and inquiries: Please contact Prof. Guillermo Acuna, [email protected] Deadline: 31st of October. Applications will be reviewed starting in September, apply as soon as possible.
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Best Global Research Positions in Agriculture and Biosciences
Several PhD Funded Positions in Agricultural Nanotechnology and Food Engineering Lab at The University of Georgia
By Agristok
Several PhD Funded Positions in Agricultural Nanotechnology and Food Engineering Lab at the University of Georgia; The University of Georgia is ranked #47 among National Universities and #349 in Best Global Universities in the 2024 edition of Best Colleges. As the birthplace of public higher education in America, UGA is a public land-grant research university with its main campus located in Athens, Georgia, United States.
Research at the University of Georgia (UGA) spans a wide array of fields, reflecting its status as a comprehensive research university. Here’s an overview: Research Infrastructure: UGA has numerous centers, institutes, and core facilities that provide state-of-the-art equipment and services not just to its researchers but also to those from other universities and industries. This infrastructure supports cutting-edge research across various disciplines.
Qualitative Research and Evaluation Methodologies : UGA is particularly noted for its Qualitative Research Program, which is internationally recognized for advancing scholarship in qualitative research methods. This program offers both a Graduate Certificate in Interdisciplinary Qualitative Studies and a Ph.D. in Qualitative Research and Evaluation Methodologies, focusing on developing methodologists who can contribute to innovative theories and methods in social science research. Interdisciplinary Research: The university encourages interdisciplinary approaches, evident from programs like the one in qualitative research, which integrates various social science fields. This approach fosters collaboration across departments, enhancing the depth and breadth of research projects.
Market Research : UGA offers market research courses through the Georgia Center, focusing on the Market Research Core Body of Knowledge. These programs are designed for professionals looking to enhance their skills in market research, indicating UGA’s commitment to applied research fields. New Developments: Recent posts and news highlight significant developments like the establishment of a new medical school at UGA, which could potentially expand its research capabilities in medical and health sciences, although specifics on how this will integrate with current research programs are still emerging.
Here are some general tips for applying to a PhD position at the University of Georgia (UGA), based on common practices and insights from academic environments:
- Mention your research experience in your application and show your commitment and fit for the program.
- Strong Academic Background: Ensure your undergraduate and any postgraduate grades are strong. A PhD program typically looks for students with a solid academic record.
- Statement of Purpose: Craft a compelling statement of purpose. This should not only explain why you want to pursue a PhD but also why at UGA specifically. Highlight your research interests , any relevant experience, and how you plan to contribute to your field. Tailor this to UGA’s program offerings and faculty expertise.
- Research Proposal: Some PhD programs might require a research proposal. This should outline your intended research area, questions, methods, and significance. Even if not required, having one can demonstrate your readiness for doctoral research.
- Letters of Recommendation: Choose recommenders who know your work well, preferably those who can speak to your research capabilities. Professors or research advisors are ideal. Provide them with your statement of purpose, CV, and any other relevant documents to help them write a more tailored letter.
- CV or Resume : Highlight all relevant academic achievements, research experience, publications, presentations, and any teaching or relevant work experience.
- Prepare for Interviews: If shortlisted, prepare for interviews or discussions. This might involve discussing your research proposal, your understanding of the field, or how you see your PhD contributing to academia or industry.
- Show Passion and Commitment: Throughout your application, convey your passion for your field. PhD programs are looking for students who are not only capable but also deeply committed to their research.
The available PhD positions in Agricultural Nanotechnology and Food Engineering Lab for Candidates are expected to hold a degree in related areas, including but not limited to food science/engineering, nutrition, plant pathology, agricultural & biosystems engineering, material science, and chemical engineering:
PhD positions within the major of Biological and Agricultural Engineering with research assistantships are available in Dr. Lingling Liu’s research group at the University of Georgia for Spring 2025/Fall 2025 admission. Selected candidates will work with Dr. Liu on areas including value-added utilization of food/agricultural byproducts; nano-encapsulation, biobased emulsions/coatings/films; agrochemicals, antimicrobials; food additive manufacturing, food nutrition, shelf-life enhancement; and the application of imaging techniques for food quality assessment.
Candidates are expected to hold a degree in related areas, including but not limited to food science/engineering, nutrition, plant pathology, agricultural & biosystems engineering, material science, and chemical engineering. Priority consideration will be given to candidates with a MS degree with journal publications. Candidates should meet the graduate admission requirement ( https://engineering.uga.edu/prospective-students/graduate/ ) with TOFEL/IELTS score available (or will be available soon).
Please send your vita (including language scores), publication(s) (if applicable), transcripts and contact info for 3 references to Dr. Liu: [email protected] . In the email, please use ‘PhD application to Liu group’ as the subject title and briefly state why you are interested in this opportunity. Priority considerations will be given to candidates who reach out before Sep 5, 2024 (for spring 2025 admission) or Feb 1, 2025 (for fall 2025 admission).
See More Opportunities Like this here .
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Phd funded position in agronomy at occitanie-montpellier centre of inrae in france, researcher job in plant development genomics at the reproduction and development of plants laboratory in lyon, france, 11 phd funded positions in evolutionary genomics in animals, plants, and fungi: consequences of biodiverse reproductive systems at university of goettingen in germany, leave a reply cancel reply, phd funded position in genetic and environmental determinants of n and p nutrition in poaceae via mycorrhiza at inrae in france.
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Prosecutors will seek death penalty against PhD student accused of killing friend’s newborn baby
Nicole virzi maintains that child slipped out of bouncer and hit his head. doctors told police her version of events don’t add up, article bookmarked.
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A PhD student in Pennsylvania could be put to death if prosecutors prove she killed her friends' newborn child and injured the baby’s twin brother.
Allegheny District Attorney's Office said on Friday that it would pursue capital punishment charges against Nicole Virzi , who allegedly crushed the skull of six-week-old Leon Katz.
Virzi, 30, was babysitting Leon in June at his family's home when the incident occurred. She is a “longtime friend of the family,” the San Diego Union-Tribune reports , citing her attorney.
According to prosecutors, Ethan Katz and his wife Savannah Roberts asked Virzi to watch Leon on June 15 while they took his twin brother, Ari, to hospital after the child was injured. Virzi was later accused of causing those injuries as well.
While they were gone, Leon was injured, prompting Virzi to call 911 at around 11:15pm. She told emergency workers that the child had fallen and bumped his head and was unresponsive. Leon was taken to Pittsburgh Children's Hospital and was pronounced dead the following day, according to the Pittsburgh Post-Gazette .
Detectives investigating the incident noted in their reports that from the tallest point of the bouncer seat to the floor is only 18 inches.
Doctors also told detectives that Leon's brother, Ari, had small scratches all over his face, two bruises just below his belly button, swelling, bruising, redness, and scratches on his genitals. They noted to investigators that the injuries were unnatural and suggested abuse.
When questioned, Virzi told police that she was the one who first noticed Ari's injuries and informed the boy's parents. She said she saw the child scratch his own face while he was flailing in a car seat.
Prosecutors noted a number of aggravating factors in the case that they believe justifies pursuing the death penalty. Among those factors is an allegation that Virzi tortured the child, which resulted in the boy's death, according to the Post-Gazette .
When police questioned Virzi about the child's death, she claimed that the boy had fallen out of his bouncer chair when she had stepped away.
Doctors who examined the child's remains were skeptical of that explanation, determining that the injuries were "consistent with having been sustained as a result of child abuse, as these are inflicted injuries that are not natural and not accidental," according to WTAE , which reviewed court and police records.
The child's cause of death was ruled as blunt force trauma to the head. A later CT scan showed that the child had suffered a severe skull fracture on the left side of his head, as well as multiple brain bleeds.
Virzi faces homicide, aggravated assault, and child endangerment charges.
She previously studied clinical psychology at UC San Diego's Joint Doctoral Program. She was temporarily living out of an Airbnb in Pittsburgh when the incident involving Leon occurred.
Virzi has maintainer her innocence and, according to her attorney David Shrager, was devastated by the child's death.
“If there was something that she would want to convey, it would just be the absolutely horrible pain that she’s feeling,” Shrager told the Post-Gazette . “These were her close friends.”
Despite the prosecutors' pursuit of the death penalty in this case, Governor Josh Shapiro has vowed to strike down any death warrants sought during his time in office.
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Close panel. The PhD in Interdisciplinary Nanoscience and Nanotechnology (NanoDTC) will train the next generation of academic and industry leaders who can transcend subject boundaries, deep-connect and transform knowledge, promote positive research culture, and bring agility and new holistic vision to addressing societal grand challenges.
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Start dates: PhD/MPhil - 1st October, 1st January, 1st April & 1st July. At Swansea University, the emphasis of our nanotechnology research is on the development of applications-driven research and the transfer of technology from the laboratory to the workplace or health centre. Interaction with industry is a key component of the centre's ...
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University College London. The London Centre for Nanotechnology is a UK-based multidisciplinary enterprise operating at the forefront of science and technology. Its purpose is to solve global problems in information processing, healthcare, energy and the environment through the application of nanoscience and nanotechnology.
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Newcastle University. (4.3) Nanoscale Science and Technology research students in nanoLAB cross the traditional disciplinary boundaries of medicine, engineering and Read more... 36 months Full time degree: £4,712 per year (UK) 72 months Part time degree: £2,356 per year (UK) Apply now Visit website Request info.
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Fully funded PhD Scholarship in Memristive Technologies. University College London Department of Electronic and Electrical Engineering. Duration of study. Full time - 4 years fixed term. Starting date. Flexible, available from December 2023. Application deadline. No closing date, the position will remain open until a suitable candidate is found.
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Fully funded PhD in Physics of Photonic Nanosystems and DNA Nanotechnology job in Fribourg, Canton of Fribourg (CH) with University of Fribourg - Nanophotonics. Apply Today.
The available PhD positions in Agricultural Nanotechnology and Food Engineering Lab for Candidates are expected to hold a degree in related areas, including but not limited to food science/engineering, nutrition, plant pathology, agricultural & biosystems engineering, material science, and chemical engineering: ...
Prosecutors will seek death penalty against PhD student accused of killing friend's newborn baby. Nicole Virzi maintains that child slipped out of bouncer and hit his head.