The programme starts in late September each year and is divided into three approximately equal periods. The first and second periods consist of lectures, laboratory classes, seminars and similar material. In the third period, students undertake an individually supervised project on a topic relevant to their special interests.
The Nanoinvestigation Centre at Liverpool (NiCaL), supported by the Northwest European Regional Development Fund (ERDF), provides regional SMEs access to the University’s most advanced and powerful electron microscopy facilities. We also offer advice and full technical support from our experienced analysts and material scientists. Qualifying SMEs can gain access to NICal free of charge.
The current research themes of the SSRC cut across the disciplines of chemistry, physics, biology and materials science, and combine the efforts of both experimentalists and theoreticians. The overarching ambition of this work is to achieve nanoscale control, design and assembly of function.
Porous materials are omnipresent in nature: microporous materials, such as zeolite minerals, with pores of angstrom, molecular dimensions; mesoprous materials, such as cell membranes, with nanometre-sized pores; macroporous materials, such as diatom skeletons, with micron-sized pores. Synthetic analogues of such materials are prepared and studied here and find many industrial uses in for instance catalysis, water treatment, environmental clean-up, molecular separation and opto-electronics.
The goal of the centre is to create an easy-to-access-and-use, multidisciplinary workshop with extensive facilities, that allows researchers to fabricate, visualise and characterise structures and devices containing individual elements from a few microns down to 10 nm in size.
The group's research activities cover a range of topics concerned with the fundamental materials and physics issues surrounding advanced semiconductor devices, novel high speed electronic and optoelectronic devices, and advanced sensors and systems.
The Nano Engineering & Storage Technology (NEST) research group (formerly the Electronic & Information Storage Systems Research Group) has research interests in nano fabrication for data storage and advanced sensors applications and the investigation of data storage systems in general. The NEST group is housed in an integrated suite of staff offices, general-purpose laboratory space and class 100/1000 cleanrooms and is a founder member of the Manchester Centre for Mesoscience and Nanotechnology (CMN) where the ground-breaking Nobel prize winning work on Graphene by Andre Geim and Konstantin Novoselov was undertaken.
EPSRC CDT in the Science and Applications of Graphene and Related Nanomaterials (GrapheneNOWNANO) is a newly established Centre for Doctoral Training (CDT) based at the University of Manchester in partnership with Lancaster University. It builds on the world-leading expertise in the science and technology of graphene and other two-dimensional (2D) materials at Manchester and Lancaster to offer a broad interdisciplinary CDT.
The Computational Nanoscience Group at Nottingham, headed by Dr. Elena Bichoutskaia, is a home to theoretical and computational scientists who are interested in nanoscale phenomena. The group works on the development of modelling approaches to a wide range of problems in condensed matter and materials science. Focus of their current research is on the behaviour, properties and manipulation of carbon nanomaterials and low dimensional systems.
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).
The group's research focuses on chemistry of carbon nanotubes and fullerenes and development of applications for these materials. Directed assembly of functional networks from nanoscopic building blocks (nanotubes, nanoparticles, macromolecules) is at the center of the experimental activities.