Nano Physics
We use various methods to synthesis nanostructured materials and try to understand their formation mechanism, physical properties, both experimentally and theoretically. We investigate the reactivity and modification of nanotubes and nanostructured materials for application purposes, such as field emission display, fuel cell, LED, etc.
Particular Research
- Effective manufacturing and purification of CNTs
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Developing methods for controlling various properties such as atomic structure, electronic properties, length and thickness, and chirality
Understanding transport mechanisms, photoelectric properties - Nano manipulation using CNTs
- Hydrogen storage, fuel cell
- Supercapacitors
- Field emission display
- Reaction of semiconductors with biological or organic molecules
- Nano-patterning on surfaces
- Engineering electronic properties of carbon nanotubes through doping
- Nanostructure fabrication using anodic aluminium oxide
- Field emission properties of CNT
- Synthesis and application of epitaxially grown single crystalline vanadium dioxide nanowires.
- Immobilization and functionalization of metal oxide nanostructures over a large area
- Development of direct writable inorganic based electron beam resist
- Development of active electrode materials for 2ndary battery applications
- Fabrication and characterization of novel bio/chemical/optical sensors by a combination of top-down and bottom-up approaches
- Synthesis of functional inorganic materials via chemical routes
- Fabrication of nanowire of a single atomic thickness and studying its properties