Please visit us again soon for more detailed information of our ongoing research projects.
Meanwhile, we can tell you that the target areas of intervention of the NUS Centre for Advanced 2D Materials and Graphene Research Centre are
- Atomically thin, wafer size, crystal growth, and characterization: Raman, AFM, TEM, STM, magneto transport, angle resolved photoemission (ARPES), optics.
- Flexible electronics and strain engineering of atomically thin materials.
- Mechanics of atomically thin film transfer.
- Nano-scale patterning and new device development.
- Three-dimensional architectures based on atomically thin films (atomic multi-layers, see figure).
- Composite materials where accumulated stress could be monitored by contactless, non-invasive, optical methods.
- Spintronics and valleytronics in two-dimensional materials.
- Atomically thin electrodes for photovoltaic or OLED applications.
- Atomically thin gas barriers and electrodes for energy/charge transfer and storage (water splitting, fuel cells, etc).
- Solution-processed atomically thin substrates for bio applications and catalysis.
- Atomically thin films as optical components in fiber lasers (mode locking, polarizers etc).
- Atomically thin film platforms for bio-sensing and stem cell growth.
- Atomically thin film platforms for sol-gel, organic, and electro-chemistry.
- Graphene-ferroelectric memories (G-FeRAM), graphene spin torque transistors (G-STT).
- Computational modeling of new atomically thin materials and complex architectures.