The ISEM at the University of Wollongong consists of more than 100 researchers and postgraduate students, working on seven large programs.
Superconductors and low energy materials
Superconductors and low energy materials for use in electrical and electronic devices such as motors, fault current limiters, transformers and magnetic resonance imaging (MRI) and future low energy electronics.
Coordinator: Prof Xiaolin Wang
Battery materials
Developing advanced materials for fuel cells and solar cells, and advancing rechargeable batteries for electric cars.
Coordinator: Prof Zaiping Guo
Energy conversion materials
Developing solar cell technology to improve energy generation and help reduce carbon dioxide emissions.
Coordinator: Prof Jung-Ho Kim
Battery management system
Integrated electronic and software system to intelligently manage every single battery cell in a battery pack for the purpose to extend battery life while protecting the cells from any abnormal operations.
Coordinator: Dr Khay Wai See
Piezoelectric and dielectric materials
For electromechanical applications including the ultrasound transducers and piezoelectric sensors, and energy related applications such as mechanical energy harvesting and electrostatic energy storage.
Coordinator: Prof Shujun Zhang
Multiferroic materials
Focusing on materials with independent/coexisting ferroic properties, such as ferroelectric, magnetic and ferroelastic properties, which have applications in energy storage, harvesting and conversion, information storage and processing.
Coordinator: Prof Zhenxiang Cheng.
THz photonics and solid state physics
Developing advanced materials and structures for terahertz science and technology for applications including medicine and biology.
Coordinator: Prof Chao Zhang
Thin film technology
Coordinator: Prof Alexey Pan
Scanning tunnelling microscopy program
Our Research focuses on nanoscale physical and chemical phenomena with an emphasis on probing the fundamental properties of low-dimensional quantum matters and energy conversion/storage materials. The target is to achieve detailed descriptions of exotic behaviours in low-dimensional materials which form the basis for exploring and utilizing physical and chemical properties associated with surface and interface.
Coordinator: A/Prof Yi Du
Biomaterials for health
Design, fabrication and study of advanced biocompatible multifunctional materials and composites for various health applications including therapeutic and diagnostic (theranostic) medical applications, melanoma prevention and treatment of oxidative stress.
Coordinator: A/Prof Konstant Konstantinov
Joint centres
UOW-NIMS
Coordinator: Prof William Price
UOW-Beihang
Cordinator: Prof Shi Xue Dou & Prof Lei Jiang