Date of Award
12-3-2024
Document Type
Dissertation
Degree Name
Doctor of Philosophy (PhD)
Department
Chemistry
First Advisor
Joseph R. Clark
Second Advisor
Gregory Pieters
Third Advisor
Dian Wang
Fourth Advisor
Nicholas Reiter
Fifth Advisor
Adam Fiedler
Abstract
Deuterium is a stable, non-radioactive isotope of hydrogen. It contains one additional neutron, making it twice as heavy in atomic mass compared to normal hydrogen. This unique property results in carbon-deuterium bonds that are shorter by 0.005 Å and possess higher activation energy, making them less susceptible to metabolic oxidation. Consequently, the use of deuterium-labeled organic molecules has become increasingly attractive in chemistry research, medicinal chemistry, and the pharmaceutical industry, particularly for drug discovery. Deuterium labeling allows organic molecules to become heavier without altering key biochemical properties such as chemical shape, size, physical characteristics, or their ability to interact with enzymes, receptors, or ligands, making it a valuable tool in ADME (Absorption, Distribution, Metabolism, and Excretion) studies. Precision deuteration is crucial for developing deuterium labeling in drug discovery. While H/D exchange methods have been extensively studied for aromatic and aliphatic positions, allylic deuteration remains an underdeveloped area of research, with only a few examples of deuteration at the allylic position. This research document presents four main projects: First, a novel copper-catalyzed method for selectively installing deuterium at the allylic position using conjugated dienes as starting substrates. Second, a new method for accessing a deuterated version of a nitrogen-mustard-based prodrug molecule for ADME studies. Third, the development of selective deuteration of silanes for application in selective tritiation, along with their use in copper-catalyzed transfer hydrotritiation of small molecules. Fourth, the development of selective deuteration of alcohols for application in selective tritiation, along with their use in copper-catalyzed transfer hydrotritiation of small molecules.