The Dye Sensitized Photoelectrosynthesis Cell (DSPEC) for Solar Water Splitting and CO2 Reduction

Thomas Meyer; Leila Alibabaei; Benjamin Sherman; Matthew Sheridan; Dennis Ashford; Alex Lapides; Kyle Brennaman; Animesh Nayak; Subhangi Roy; Kyung-Ryang Wee; Melissa Gish; Jerry Meyer; John Papanikolas

The Dye Sensitized Photoelectrosynthesis Cell (DSPEC) for Solar Water Splitting and CO2 Reduction

ORAL

Abstract

The dye-sensitized photoelectrosynthesis cell (DSPEC) integrates molecular level light absorption and catalysis with the bandgap properties of stable oxide materials such as TiO2 and NiO. Excitation of surface-bound chromophores leads to excited state formation and rapid electron or hole injection into the conduction or valence bands of n or p-type oxides. Addition of thin layers of TiO2 or NiO on the surfaces of mesoscopic, nanoparticle films of semiconductor or transparent conducting oxides to give core/shell structures provides a basis for accumulating multiple redox equivalents at catalysts for water oxidation or CO2 reduction.

March 14, 2016, 1:51 PM – March 14, 2016, 2:03 PM

Authors

Thomas Meyer

University of North Carolina at Chapel Hill
Leila Alibabaei

University of North Carolina at Chapel Hill
Benjamin Sherman

University of North Carolina at Chapel Hill
Matthew Sheridan

University of North Carolina at Chapel Hill
Dennis Ashford

Eastman Chemical
Alex Lapides

University of North Carolina at Chapel Hill
Kyle Brennaman

University of North Carolina at Chapel Hill
Animesh Nayak

University of North Carolina at Chapel Hill
Subhangi Roy

University of North Carolina at Chapel Hill
Kyung-Ryang Wee

University of North Carolina at Chapel Hill
Melissa Gish

University of North Carolina at Chapel Hill
Jerry Meyer

University of North Carolina at Chapel Hill
John Papanikolas

University of North Carolina at Chapel Hill