The 63rd JSAP Spring Meeting, 2016

Presentation information

Symposium

Symposium » New trends in computational materials science -Molecular electronics and bioelectronics

[20p-W631-1~8] New trends in computational materials science -Molecular electronics and bioelectronics

Sun. Mar 20, 2016 1:45 PM - 5:30 PM W631 (W6)

Satoshi Kera(IMS), Yukihiro Shimoi(AIST), Ryoji Asahi(Toyota Central R&D Labs.)

3:00 PM - 3:30 PM

[20p-W631-4] Theoretical Study of Electron Transfer in Complex/Semiconductor system for photocatalytic CO2 reduction

Ryoji Asahi1, Ryosuke Jinnouchi1, Soichi Shirai1, Akimov A.V.2, Prezhdo O.V.2 (1.Toyota Central R&D Labs., Inc., 2.Univ. of Southern California)

Keywords:artificial photosynthesis,elecron transfer

Artificial photosynthesis is one of the promising routes toward sustainable and clean energy. Recently, there has been increasing interest in development of materials for efficient photocatalytic CO2 reduction and its transformation to useful chemicals. To realize high selectivity for CO2 reduction to H2 production, Ta2O5/Ru-complex system was proposed. One of the rate limiting processes in the overall photocatalytic reduction is an interfacial electron transfer from N-doped Ta2O5 to Ru-complex. This process strongly depends on two factors: (A) the way the Ru-complex is attached to the semiconductor surface, including the length and the nature of linker, as well as the anchor binding mode, and (B) a band alignment between conduction band minimum of the semiconductor and LUMO of Ru-complex. Here we investigate the dynamical and electronic structure effects of anchoring groups, PO3Hs, COOH, and OH, in Ta2O5/Ru-complex system, and discuss the role of anchor groups for the electron transfer. .