Nanochemistry deals with syntheses of various nanomaterials and nanostructures and the characterizations thereof. This class intends to address syntheses and applications of recently developed nano-sized structures that include organics, semiconductors and metals. Students in this class shall understand recent nanoscience and nanotechnology, and thus develop capabilities leading principal researches at future careers in academia and industries.

Prerequisite: General chemistry
Recommended prerequisite: Physical chemistry, Inorganic chemistry

Gouzhong Gao, Nanostrcutures & Nanomaterials, Imperial College Press
Geoffrey A. Ozin, Concepts of Nanochemistry, Wiley-VCH

WK1-3: Introduction-Thermodynamics for nanomaterials-Optical. magnetic, and electrical property changes in nanomaterials-Syntheses of nanomaterials: Solution based Process Vs. Vacuum Process WK4-8: Synthesis and lithography- Semiconductor nanocrystal quantum dots- Metal nanoparticles and nano-structures- Fullerine, carbon nanotubes, and bucky balls- Organic nanomaterials- E-beam Lithography- Focused Ion Beam Miller- Soft Lithography- Contact Lithography- Plasmonic Lithography- Nanosphere Lithography WK9-15: (10.16 -11.15) Applications of nanomaterials - Properties and applications of semiconductor nanocrystal quantum dots- Nanoplasmonics- Lasers & Optical Communications- Optical Switches and Optical Computings- Nanostructured Electrical Devices- Electron transport phenomena in nanostructures- Magnetic properties of nanomaterials and nanostructures- SpintronicsWK16: Final exam