화학공학소재연구정보센터
International Journal of Hydrogen Energy, Vol.45, No.3, 1719-1728, 2020
Hydrogen production on the new hetero-system Pr2NiO4/SnO2 under visible light irradiation
The Pr2NiO4/SnO2 heterojunction with a mass ratio equal to unity was tested with success for the hydrogen production under visible light irradiation. Pr2NiO4, prepared by nitrate route, crystallizes in a tetragonal symmetry with K2NiF4 type structure. The physical, electrical and photo-electrochemical characterizations are correlated to show the feasibility of Pr2NiO4 for the hydrogen formation under visible light. The enhanced hydrogen production activity is due to electron injection of activated conduction band Pr2NiO4-CB (-1.53 V-SCE) into SnO2-CB (-0.87 V-SCE) which acts as an electron pump, resulting in better water reduction. The band gap of the semiconductor Pr2NiO4 is 1.81 eV with a direct optical transition. Pr2NiO4 acquired p type conductivity, due to oxygen insertion in the layered lattice with an activation energy of 0.09 eV. The flat band potential (E-fb, 0.18 V-SCE), very close to the photocurrent onset potential (0.13 V-SCE) and the density of the holes (N-A, 1.85 10(20) cm(-3)) were obtained from the Mott-Schottky characteristic. H-2 production rate of 24.3 mu mol g(-1) min(-1) is obtained with a quantum yield of 1.45% within 30 min under optimal conditions (1 mg of catalyst/mL, pH similar to 12 and 50 degrees C) in presence of S2O2-3 as hole scavenger under visible light flux of 29 mW cm(-2). (C) 2019 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.