Nanotechnology Research in

The institute has started a M.Tech Course in Nanotechnology in November, 2003. The program comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications.

The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.

The M.Sc. - Nanoscience by Research is a two year full-time degree program from Amity University

The programme at the Amity Institute of Nanotechnology comprises of conceptual knowledge of nanoscience and nanotechnology, including preparation of nanomaterials, their characterization and applications. Our eminent faculty takes care of teaching and training the students in the frontier areas of nanotechnology and they have drawn a noteworthy syllabus for the entire course.

The laboratory has an experience of over fifteen years in thin films & coatings technology, fabrication of nanostructured materials, developing/deploying in-situ & real-time monitoring techniques and in Nanometrology. LTFN programs strive to interact with industry and to transfer its technology to industrial users and developers and provide excellently educated graduates and research associates to society.

Interdepartmental-interscientific postgraduate course

The aim of the proposed Japanese-German Research Unit 'Advanced spintronic materials and transport phenomena' (ASPIMATT) is to develop the foundations for a future spintronics with the potential to complement and succeed conventional CMOS. The specific approach lies on the development and characterization of new spintronic materials for applications at room temperature and on the study of new spin transport phenomena, in particular lateral spin current phenomena.

Dedicated to substantially enhancing Australia's research outcomes in this important field by promoting effective collaborations, exposing researchers to alternative and complementary approaches from other fields, encouraging forums for postgraduate students and early career researchers, increasing nanotechnology infrastructure, enhancing awareness of existing infrastructure, and promoting international links.

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.

BICAMN includes focus areas in 'Nanodevices' and in 'Nanomaterials' that explore the basic science of nanoscale magnetism and optics and the structural details of novel nanoparticles and nanoscale thin films.

The mission of the Institute is to play a dominant role in the materials science and technology innovation chain, first of all in the field of laser technology, metal technology and simulation, polymer technology and nanotechnology.

BCMaterials is an autonomous research center that covers all aspects of research in Functional Materials with advanced Electric, Magnetic and Optical properties; from basic aspects to applications. Special activity is devoted to thin films materials and characterization techniques involving Large International Facilities, like neutron and synchrotron radiation sources.

Inspired by the natural biological materials, such as the spider silk, lotus root silk, shells, Professor Cheng's group is focused on bioinspired polymer nanocomposites, including assembly, design and physical properties investigation. Different nanomaterials, such as montmorillonite, carbon nanotubes and graphene oxide, are utilized as building blocks for constructing polymer nanocomposites.

The Institute's aim is to develop green and mass production techniques to make low-cost graphene powders of different qualities, and to investigate properties of such graphene powders in electrical/thermal conductivity, anti-corrosion coating and mechanical reinforcement in strength and flexibility.

The institute conducts research in the areas of piezoelectronics, photonics and nanopiezoelectric generators and other related areas of basic and applied basic research.