This Online short course will look into the industrial application of photoredox and concomitant development of enabling technologies.
Light-driven organic synthesis, and in particular the use of visible light in photoredox catalysis, has dramatically increased over the past decade. Application in synthetic drug discovery has expanded and augmented the rapid diversification of chemical space- with new scaffolds, late stage functionalization and high throughput screening methods being used to identify new reaction modalities. Industrial application of photoredox and concomitant development of enabling technologies such as continuous flow photochemistry is also set to impact future drug manufacturing.
This online course will be of interest to anyone who are:
Discovery/Synthetic organic chemists
Process development chemists
Anyone wishing to learn more about photoredox chemistry
This online course will be in two live sections of 60-90 minutes, over two consecutive days as follow:
Monday, June 23rd | 2.00 – 5.00 pm (GMT – UK)
Tuesday, June 24th | 2.00 – 5.00 pm (GMT – UK)
Light-driven organic synthesis, and in particular the use of visible light in photoredox catalysis, has dramatically increased over the past decade. Application in synthetic drug discovery has expanded and augmented the rapid diversification of chemical space- with new scaffolds, late stage functionalization and high throughput screening methods being used to identify new reaction modalities. Industrial application of photoredox and concomitant development of enabling technologies such as continuous flow photochemistry is also set to impact future drug manufacturing.
This online course will be of interest to anyone who are:
Discovery/Synthetic organic chemists
Process development chemists
Anyone wishing to learn more about photoredox chemistry
This online course will be in two live sections of 60-90 minutes, over two consecutive days as follow:
Monday, June 23rd | 2.00 – 5.00 pm (GMT – UK)
Tuesday, June 24th | 2.00 – 5.00 pm (GMT – UK)
