Condensed-Matter Physics
We are developing new materials in areas such as fuel cells, hydrogen storage, oxide electronics, spintronics, multiferroics, multi-functional hybrid thin films, low dimensional hybrid structures, nonlinear terahertz spectroscopy, nonlinear materials and portable energy sources. A range of characterization techniques are used for structural, optical, electrochemical, magnetic and electrical transport measurements at low temperature and high magnetic fields of thin films and bulk materials.
3D Polymeric structures, Biomedical physics, Materials imaging, High resolution RBS (spectrometry), Nuclear microscopy
- Photonics & optics, lithography, imaging (Andrew BETTIOL)
- Proton beam fabrication, lab-on-chip devices (Jeroen Anton van KAN)
- High energy ion beams, materials imaging, micro-machining, x-ray lithography (Mark BREESE)
- Ion-beam analysis, high resolution RBS, nuclear microscopy (Thomas OSIPOWICZ)
Condensed matter physics
- Computational Materials Physics (FENG Yuan Ping & ZHANG Chun)
- Acoustic phonons, spin waves (Paul LIM)
- Material electronic structure & transport properties (QUEK Su Ying)
- Disorder & interactions in Dirac fermion systems (SHAFFIQUE Adam)
- Quantum thermal transport, molecular dynamics simulation (WANG Jian-Sheng)