The enhancement of electron transportation and photo-catalytic activity for hydrogen generation by introducing spin-polarized current into dye-sensitized photo-catalyst

 
Abstract: In this work, implanting polyiodides into graphene (RGO) not only led to the spin-polarization of photo-generated electrons, but also induced Rashba spin-orbit coupling to an optimum level on which the spin electrons could tunnel between the honeycomb sub-lattices of RGO via the p-orbitals of polyiodides. Due to the high efficiency, long lifetime and low energy loss of the spin transportation, the photo-currents were therefore promoted remarkably and the turn-over frequency (TOF) of hydrogen generation was improved by up to 123% for dye-sensitized visible-light-driven HER, and the mechanism has been proven to be effective in four different dye-sensitized HER systems.

KeyWords Plus: VISIBLE-LIGHT IRRADIATION; H-2 PRODUCTION; GRAPHENE; WATER; EVOLUTION; PHOTOCATALYSTS; SPINTRONICS; PARTICLES; FUEL

Published in CATALYSIS SCIENCE & TECHNOLOGY, 6 (21):7693-7697; 10.1039/c6cy01880g 2016

Copyright © Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
Address: No.18,Tianshui Middle Road,Lanzhou,P.R.China ZIP Code:730000 Tel: 86-0931-4968009 Fax: 86-0931-8277088
E-mail: webeditor@licp.cas.cn