Understanding the fundamental electrical and photoelectrochemical behavior of a hematite photoanode

PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Understanding the fundamental electrical and photoelectrochemical behavior of a hematite photoanode

Abstract: Hematite is considered to be the most promising material used as a photoanode for water splitting and here we utilized a sintered hematite photoanode to address the fundamental electrical, electrochemical and photoelectrochemical behavior of this semiconductor oxide. The results presented here allowed us to conclude that the addition of Sn4+ decreases the grain boundary resistance of the hematite polycrystalline electrode. Heat treatment in a nitrogen (N-2) atmosphere also contributes to a decrease of the grain boundary resistance, supporting the evidence that the presence of oxygen is fundamental for the formation of a voltage barrier at the hematite grain boundary. The N-2 atmosphere affected both doped and undoped sintered electrodes. We also observed that the heat treatment atmosphere modifies the surface states of the solid-liquid interface, changing the charge-transfer resistance. A two-step treatment, with the second being performed at a low temperature in an oxygen (O-2) atmosphere, resulted in a better solid-liquid interface.

Author(s): Soares, MRS; Goncalves, RH; Nogueira, IC; Bettini, J; Chiquito, AJLeite, ER.

PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Volume: 18 Pages: 21780-21788 Published: AUG 31 2016

PDF: Understanding the fundamental electrical and photoelectrochemical behavior of a hematite photoanode

DOI: 10.1039/c6cp03680e

 

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O Laboratório Aberto de Interatividade para Disseminação do Conhecimento Científico e Tecnológico (LAbI), vinculado à Universidade Federal de São Carlos (UFSCar), é voltado à prática da divulgação científica pautada na interatividade; nas relações entre Ciência, Arte e Tecnologia.