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 Postgraduate Certificate in Nanotechnology is a unique online course which is taken part time. The course is ideally suited to people who are in full-time employment who seek to gain an academic qualification in the exciting field of nanotechnology. It is taken predominantly online, meaning that it is accessible to anyone in the world with Internet access.
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.
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 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.
Ten Semester (Five year) Integrated Dual degree Master of Technology course in the four streams of Converging Technologies. The Master's programme will have two years of common curriculum in all fields of basic science, and engineering. The third year course involves training in all streams of converging technologies. The last two years of education will be fully customizable in specialized domains in the streams of converging technologies.
The primary aim of establishing the Centre for Converging Technologies (CCT) is to produce high quality research in the four streams of Nanotechnology, Bioinformatics and Biotechnology, Information and Communication Technology, Cognitive & Neuroscience so as to create new scientific methodologies, engineering paradigms, and industrial products. The focus will be on key areas relevant to the desired rapid growth of the Indian economy.
The master's degree is the first step into graduate education. To enroll in a master's degree program, you'll need to have earned an undergraduate degree in a comparable field. All physics undergraduates who have completed their 3rd year of studies can enroll on this 4-term course after which they will receive Master degrees at both Polish and French Universities. The 2-year programme is available for individual students as well as groups.
Areas of research include: Nanotechnology and Nanoelectronics, Nanophotonics (photonic crystals and integrated photonics), Quantum Technology and electronic devices, Micro and Nanoelectromechanical Systems (MEMS, microsensors and actuators), Bioelectronics and Lab on a Chip (Microfluidics and Nanofluidics), RF system design (ARTIC).
Nanobioscience is a scientific discipline where techniques on a nano-scale are used to understand and utilise the construction of nature and the molecular principles and structures which are the cornerstones of all biology. The purpose of Nanobioscience is for instance to use biological molecules for constructing functional nano-materials with a long list of groundbreaking uses.
Electronic Engineering with Nanotechnology offers engineers a firm grounding in conventional electronics, plus the specialist skills at the electronics/physics interface required to work at the forefront of modern nanoscale device fabrication. These programmes enable you to build on a common foundation in electronics by introducing specialist modules from the second year. These modules cover nanoscale electronic devices, optoelectronics, nanofabrication and advanced experimental methods.
The MSc programme is designed to provide a fundamental understanding and practical experience of developing nanotechnology, nanomaterials and nanoelectronic devices. If you are looking to develop specialised practical experimental skills using state-of-the-art equipment and facilities, a research career, or the ability to evaluate the impact of nanotechnology on your technology, then this programme is for you. Participants with good industrial experience are also welcome on the course depending on their background.
The honours degree is a one-year, full-time program undertaken following the completion of the pass degree. The main component of the course is a research project conducted within one of the UTS research groups, or jointly with an external organisation. This prepares students in aspects of planning and executing a research program to address a specific scientific or technological problem.
Students who have a strong background in any of the physical sciences or engineering disciplines are encouraged to apply to the Graduate Program in Materials Science and Engineering. MS&E students that select the Nanomaterials Thrust will take a sequence of courses from basic to advanced designed to train them in the fundamentals of materials science as well as critical skills in processing, characterization and applications of nanomaterials.