Nanomaterials such as Graphene and 2D Materials
Low dimensional nanostructures exhibit fascinating properties with many potential applications in nanoelectronics, information storage, bio/chemical sensors and organic/molecular electronics. We are engaged in the synthesis of a wide variety of nanostructures and nanostructured materials using a variety of techniques for patterning and growth using lithography and self-assembly and researching their magnetic, electronic, optical, mechanical and chemical properties.
2D Materials
- Graphene, disordered magnetic systems, strongly correlated systems (Antonio CASTRO-NETO)
- Graphene: nanostructure, transistors, biomedical devices (Barbaros OZYILMAZ)
- Light-matter interaction, excitons, charge transport, thin film growth (Goki EDA)
Surface Science
- Surface science, STM, heterojunctions, nanomaterials (Andrew WEE)
- Self-assembly, interface engineering (Chen WEI)
- Surface & interface of semiconducting materials (TOK Eng Soon)
- STM & STS, topological insulators, self-assembly (WANG Xuesen)
Oxides: Superconductivity, Oxide thin films, Magnetic materials
- Heterostructure, superlattices & quantum wells (Ariando)
- Correlated electron system, synchrotron-based characterisation (Andrivo RUSYDI)
- Oxides, ferroelectrics, GMR materials (R MAHENDIRAN)
Nanostructures, Energy
- Hybrid nanostructured materials (SOW Chorng Haur)
Spectroscopies
- Non-linear optics, spectroscopy, optoelectronics (Ji Wei)
Organic Semiconductors: Organic electronic devices
- Organic light-emitting diodes, transistors, solar cells (Peter HO)