|Study location||United Kingdom, Southampton|
|Type||Master courses, full-time|
|Nominal duration||1 year|
|Tuition fee||£19,570 per year|
Undergraduate diploma (or higher)
Upper second-class honours degree or higher (or equivalent) in related subject discipline such as electronic engineering, medical engineering, bioengineering, (bio)chemistry or physics, taken with advanced engineering modules.
The entry qualification documents are accepted in any language
IELTS: 6.5 (with a minimum of 6.0 in each band)
At least 2 reference(s) must be provided.
Electronic technologies are now being applied to biomolecular and biomedical research and the electronics industry is moving towards healthcare applications. Learn how modern micro- and nanofabrication methods can be used to create biodevices and position yourself at this exciting new interface between electronic engineering and the life sciences.
This programme is multidisciplinary, exploring the functional integration of nanofabricated structures and biological molecules into microscale biodevices and systems. State-of-the-art nanofabrication and electronic or optical measurement methods are addressed, and the specific design requirements for device operation in the aqueous environment of biomolecular solutions such as blood samples are emphasized. The programme will also impart a thorough appreciation of biochemical and biophysical methodology, which is essential for the development of biodevices. Application areas are broad and range from bionanoscience and technology to biomedical healthcare technologies, for example:
Point-Of-Care diagnostic devices
Lab on a Chip miniaturization
You will develop skills outside a conventional engineering curricula. A significant component of the programme is in laboratories, involving research and cleanroom equipment, and close interaction with researchers working at the cutting edge of this interface with the Life Sciences.
Research and investment in this area is driven by engineering, life sciences, and medical sciences and we will provide a close interface with these areas. The degree provides an excellent platform for further research in either industry or academia (such as PhD research in ECS, the ORC and the Institute for Life Sciences).
The programme consists of eight taught modules and an individual research project. The core subjects relate to bionanotechnology and design and fabrication of biodevices. You can also choose from a wide range of optional topics. These include modules on nanoelectronics, microelectromechanical systems and photonics and also biomolecular courses taught by the Centre for Biological Sciences, allowing you to tailor the structure to suit your own interests.
Graduates from our MSc programme are employed worldwide in leading companies at the forefront of technology; indeed large electronics companies such as Samsung, Panasonic and Sony have moved into healthcare markets. ECS runs a dedicated careers hub which is affiliated with over 100 renowned companies like IBM, ARM, Microsoft Research, Imagination Technologies, Nvidia, Samsung and Google to name a few. Visit our careers hub for more information.