Advancements in the Photocatalysis of Iron Complexes and the Electrocatalysis of Cobalt Complexes for Hydrogen Generation

Author

Ryan J. DiRisio, College of William and MaryFollow

Date Thesis Awarded

5-2017

Access Type

Honors Thesis -- Access Restricted On-Campus Only

Degree Name

Bachelors of Science (BS)

Department

Chemistry

Advisor

William R. McNamara

Committee Members

Kristin L. Wustholz

John C. Poutsma

Timothy A. Davis

Abstract

A family of highly active iron polypyridyl complexes are reported due to their highly active and stable photocatalytic activity. The photocatalytic system produces hydrogen for 24 hours, with a turnover number (TON) of >2000. The photochemical quenching mechanism is explored, as well as the limiting factors of the photocatalytic system.

In addition, a family of cobalt Schiff base complexes are reported due to their facile synthesis, cost-effectiveness, and electrocatalytic activity and efficiency. Foot-of-the-wave analysis (FOWA) is used to more ideally describe the kinetics of the electrocatalysts. Tafel plots are used to describe the relationship between activity and efficiency in both the catalysts. One electrocatalyst has a maximum theoretical turnover frequency (TOF) of 80,000 s^-1.

Recommended Citation

DiRisio, Ryan J., "Advancements in the Photocatalysis of Iron Complexes and the Electrocatalysis of Cobalt Complexes for Hydrogen Generation" (2017). Undergraduate Honors Theses. William & Mary. Paper 1059.
https://scholarworks.wm.edu/honorstheses/1059