Advances in Oxoammonium-Salt Mediated Transformations: Mechanistic Investigations, Oxidative Functionalization, and Photoredox Catalysis

Authors

John M. Ovian, University of Connecticut - StorrsFollow

Date of Completion

5-6-2017

Embargo Period

5-4-2018

Advisors

Nicholas Leadbeater

Field of Study

Chemistry

Degree

Master of Science

Open Access

Campus Access

Abstract

The development of innovative methodologies enables the synthetic chemist to construct molecules in new and more efficient ways. Computational modeling has allowed for mechanistic insights and often guided experimental projects, including several oxidative functionalization reactions. Photoredox catalysis has been employed as a new method to access the oxoammonium cation scaffold and its reactivity. These areas are not only sought after by the wider chemical community, but also represent a central theme in this work, namely utilizing synthetically advantageous chemical transformations to forge new bonds in an efficient and environmentally friendly method.

Recommended Citation

Ovian, John M., "Advances in Oxoammonium-Salt Mediated Transformations: Mechanistic Investigations, Oxidative Functionalization, and Photoredox Catalysis" (2017). Master's Theses. 1092.
https://digitalcommons.lib.uconn.edu/gs_theses/1092

Major Advisor

Nicholas Leadbeater