Fluorescence and Laser Spectroscopic Investigation of Nanoparticles

Currently the development of robust chemical and biosensors using nanomaterials is an active field of research. Developments of materials at the nanoscale has become one of the prominent technology today due to their novel optical properties such as broad absorption spectrum narrow and symmetric emission spectrum size/compositional tunable optical properties and high photobleaching threshold conditions. The implications of nanotechnology are wide-ranging and could include medicine military applications computing and astronomy. Hence during the course of Ph.D. I considered to study optical and carrier relaxation dynamics of semiconductor nanocrystals or quantum dots (CdTe CdSe CdSe/ZnS and Alloyed CdSeS/ZnS QDs) using steady-state and time-resolved spectroscopy. Further we carried out the effect of size shape composition and surface capping on Fluorescence resonance energy transfer (FRET) from these QDs with organic dyes and fluorescent proteins with a view to developing chemical and biosensors.