Repository logo
 

The development and applications of light-gated cobalt catalysis

Date

2017

Authors

Ruhl, Kyle E., author
Rovis, Tomislav, advisor
McNally, Andrew, committee member
Neilson, James R., committee member
Kipper, Matthew J., committee member

Journal Title

Journal ISSN

Volume Title

Abstract

Transition metals are an important natural resource and an essential component of many industrial processes and applications. Examples of these include air-quality control, electronics manufacture, agriculture, pharmaceuticals, and petro-chemistry. Within the field of synthetic chemistry, transition metal catalysts minimize waste, decrease expense, and enable rapid construction of small molecules. Over the past decade, transition-metal-based polypyridyl complexes have been the cornerstone of photo-redox catalysis which facilitate electron transfer and allow synthetic chemists to functionalize inert functionalities using visible-light energy. The first chapter of this work introduces rhodium- and cobalt-catalyzed [2+2+2] cycloadditions as well as photo-redox catalysis. The following chapter covers our group's progress toward the merger of photo-redox and cobalt catalysis as well as the multi-disciplinary approach we have used to understand mechanism. The third chapter explores light-gated catalysis and its importance for spatially and temporally resolved methods. Finally, the fourth chapter focuses on the applications of light-gated cobalt catalysis. We have found a light-gated cobalt catalyst to temporally control the [2+2+2] cycloaddition, and when combined with photolithography, enable a spatially resolved method for arene formation.

Description

Rights Access

Subject

cobalt
light
catalysis
photoredox
gated

Citation

Associated Publications