photocatalysis in organic synthesis
The use of light in organic synthesis, more specifically the use of visible light in photoredox catalysis, has developed rapidly over the last 15 years and it is now time to define its impact on the field. Photocatalysis describes transformations that require light as an energy input to proceed and typically use catalytic amounts of light-absorbing photocatalysts,such as metal complexes or organic dyes.
Blue LED Kessil lamp set-up in lab.
For more information about Kessil Blue LED lamp, link:- https://kessil.com/products/science_PR160L.php
For more information about Kessil Blue LED lamp, link:- https://kessil.com/products/science_PR160L.php
Microwave assisted organic chemistry (maos)
Last two decades have seen a surge of interest in Microwave assisted organic synthesis vis-a-vis conventional heating. This technology has some obvious advantages such as rapid heating, preparative simplicity and overall energy efficiency.
Our research group is actively engaged in Microwave Assisted Organic Chemistry, or MAOS as it is commonly called. To this effect, our laboratory houses two sophisticated monomode Anton paar Microwave synthesizers (monowave 300 reactor).
Our research group is actively engaged in Microwave Assisted Organic Chemistry, or MAOS as it is commonly called. To this effect, our laboratory houses two sophisticated monomode Anton paar Microwave synthesizers (monowave 300 reactor).
molecular modelling and in silico investigation of new chemical entities (nces) against important THERAPEUTIC targets
Molecular modelling and docking studies are now become a routine part of any drug discovery venture. In our pursuit for rational drug design against tropical disease, Malaria and TB to name a few, we have resorted to an exclusive quest for small molecular scaffolds to be potent hit against novel targets. So far all the results have been compiled on software's like Autodock, Molegro, Dock6 and some more top software's are expected to be added to this list soon.....