The degree follows the same syllabus as the BSc Physics programme with an introduction to nanoscience and other cutting-edge research provided by the Frontiers in Physics module. In year two you will again pursue the same core as for the BSc Physics course but will also take the Force and Function at the Nanoscale, and Molecular Bio- and Nanophysics modules (which replace two of the optional modules of the core course).
This is a multidisciplinary programme at the interface between physics and chemistry. The main focus is on advanced materials, energy, and nanotechnology, but the programme also provides a solid foundation in physics and chemistry. Even though specific courses in physics, chemistry, mathematics, nanotechnology, and computer science are compulsory, there is room for a range of optional courses that you can integrate into the degree.
The master's programme Nanoelectronics and Robotics will provide you with the necessary knowledge and skills to develop application specific data and electronic systems from basic building blocks implemented in nanoelectronics, to complex systems consisting of both software and hardware for demanding signal processing and control.
The group is based in the Department of Materials and studies the three main forms of sp2 carbon nanomaterials: Fullerenes, Nanotubes and Graphene. Their interest is in developing nanostructures with unique quantum properties that have potential in electronic, photonic, and spin-based technologies.
This advanced modular course is delivered by leading scientists and experts in this rapidly developing field and has been specifically designed for those who would value a part-time modular learning structure, for example those in full-time employment, both in the UK and overseas. The MSc is designed to be completed part-time, normally over a two- to three-year period, and so provides a path to career development that is flexible and recognised within academia and industry. The programme comprises three online modules exploring the fundamentals of science and materials characterisation at the nanoscale, three intensive five-day face-to-face modules describing the clinical and commercial application of such science, and a piece of original lab-based research leading to the submission of a dissertation.
The research interests of the Quantum Optoelectronics Group include: Time-resolved Spectroscopy of Nanostructures; Quantum Optics; Wide Bandgap Semiconductors; Quantum Hall effect; Near-field Optical Microscopy; Photonic Bandgap Materials; High Tc Superconductors.
CIGA's mission is making researches on ethical and social implications of nanotechnology; analysing the frameworks of legal regulation of new technologies and namely of nanotechnologies; promoting interdiciplinary exchanges on these topics; improving the public debate on implications of new technologies.
The University of Pennsylvania's School of Engineering offers new Master of Science Degree program in Nanotechnology. The program has options for Nano Enabling Energy, Nano Enabling Medicine, Nanoelectronics and more.
The Krishna P. Singh Center for Nanotechnology integrates state-of-the-art nanocharacterization, nanofabrication, and property measurement facilities at the University of Pennsylvania. The Center houses several multi-user experimental laboratories critical to advanced research and development.
A certification in Nanoscale Science and Technology documents that a graduate student has mastered fundamental principles and practical implications in the core areas of the field. The certification program is open to all graduate students in good standing at Penn and is designed such that students in BE, CBE, ESE, MEAM, and MSE can accomplish this within their degree program, i.e. without extending the time to graduation.
The Institute of NanoScience and Engineering is an integrated, multidisciplinary organization that brings coherence to the University's research efforts and resources in the fields of nanoscale science and engineering.
The unique capabilities of the AIBN come from merging the skills of the engineer, chemist, biologist and computational scientist to conduct a world-class research program in nano-scale science, technology and engineering, technology transfer and commercialization.
The Innovation Management Dual Majors prepare students for the growing focus of Biotechnology organizations and University/Public Sector based research groups on seeking markets for their scientific outputs.
An interdisciplinary research centre focussing on cutting-edge research in the area of molecular scale computations. This involves a range of important application-based modelling in targeted areas of biological science, materials science, nanotechnology and environmental science as well as a world-leading program in the development of new molecular theory and computational methodologies.