Nanotechnology and Microfabrication MSc
- Name: Nanotechnology and Microfabrication
- Qualification: MSc
- Duration: 1 year full-time; 2 years part-time
This course teaches numerate graduates knowledge and skills in the field of nanotechnology and microfabrication. The course takes an immersive approach to learning both the principles and practices of nanotechnology and microfabrication with much of the material based around examples and practical exercises. Students completing this course will have a firm grasp of the current practices and directions in this exciting area and will have the knowledge and skills to enable them to design and build microscale devices.
Student Study Support
All students are assigned a designated supervisor, an academic member of staff who will provide formal supervision and support on a daily basis.
The School’s Director of Graduate Studies will ensure that the appropriate level of support and guidance is available for all postgraduate students, and each Course Director is available to help and advise their students as and when required.
Course content is for guidance purposes only and may be subject to change.
Introduction to Nanotechnology & Microsystems: Focuses on the device fabrication techniques at the nano and micro scale, as well as introducing some of the diagnostic tools available to test the quality and characteristics of devices.
Modelling and Design: Focuses on the simulation and design of electronic devices using an advanced software package – COMSOL. This powerful commercial software package is extremely adaptable and can be used to simulate and design a very wide range of physical systems.
Advanced Sensor Systems: Provides students with an understanding of more complex sensor systems and a view of current developments in specific areas of sensor development. Applications of these systems and their main producers and users are also discussed.
Mini Project: Focuses on applying the skills and techniques to a mini project, whose theme will form the basis of the research project.
RF and Optical MEMs: Introduces the use and benefits of miniaturisation in RF and optical technologies. The module will investigate improvements in component characteristics, and manufacturing processes. Applications of RF and optical nano and microsystems will be discussed using examples.
Microengineering: This module provides an introduction to the rapidly expanding subject of microengineering. Starting with a discussion of the benefits and market demand for microengineered systems, the module investigates clean room-based lithographic and related methods of microfabrication. Micro manufacturing issues for a range of materials such as silicon, polymers and metals will be discussed along with routes to larger scale manufacture. A range of example devices and applications will be used to illustrate manufacturing parameters.
Further Microengineering: This module builds on the knowledge of microengineering and microfabrication gained in module IES4003 Microengineering and provides practical microfabrication experience. The module examines a broad range of advanced manufacturing process including techniques suitable for larger scale production, particularly of polymer devices. The module also examines specialist fabrication methods using laser systems and their flexibility in fabricating macroscopic and sub micron structures.
Masters Project Preparation: To place computing and engineering within a business context so that students relate the technical aspects of their work to its commercial and social dimensions and are able to prepare project plans which take into account the constraints and limitations imposed by non-technical factors.
Research Project: After the successful completions of the taught component of the MSc programme, the major individual project will be undertaken within the world-leading optoelectronics or optical communications research groups of the School. Students will then produce an MSc Dissertation.
Modules for the current academic year
Module listings are for guide purposes only and are subject to change. Find out what our students are currently studying on the Nanotechnology and Microfabrication Modules page.
This degree is aimed at candidates who have gained a minimum 2(i) in Electronic Engineering.
IELTS: 6.5 is required (no element below 6.0).
For information and further detailed guidance on entry requirements for International Students, including the minimum English Language entry requirement, please visit the Entry Requirements by Country pages on the International Education Centre section of our website.
Ask the IEC for assistance...
If you want advice or a general chat about what’s available contact the International Education Centre on +44 (0) 1248 382028 or email firstname.lastname@example.org
How to Apply
Home/EU students: apply online yourself with the help of our Guidance Notes on online application for Home/EU students. We strongly recommend you read these before you start to apply online.
Once you have read the Guidance Notes you should apply using our Online Application form.
Need help applying? Home/EU students please contact:
Postgraduate Admissions: email@example.com or write to:
Telephone: +44 (0)1248 383717.
- Students: can apply though our Online Application Portal. Refer to the Guidance Notes for help filling the form.
- Agents: if you are an agent applying on behalf of the student, then you can Apply here. For further guidance click here
Need help applying? International students please contact:
International Education Office: firstname.lastname@example.org or write to
International Education Centre
Telephone: +44 (0) 1248 382028
When to apply
The University will accept applications throughout the year, but we would generally advise that you send in your application form by the end of June to ensure that you have time to make any funding and/or accommodation arrangements, and for documents such as transcripts and references to be obtained if not submitted with the application. This will also give you more time to meet any conditions we may potentially attach to an offer.