Issue 35, 2011
From the journal:

Physical Chemistry Chemical Physics

Effect of nitrogen and intrinsic defect complexes on conversion efficiency of ZnO for hydrogen generation from water

Y. H. Lu,ab   S. P. Russoc  and  Y. P. Feng*a  

* Corresponding authors

a Department of Physics, National University of Singapore, 2 Science Drive 3, Singapore 117542, Singapore
E-mail: phyfyp@nus.edu.sg

b International Center for New-Structured Materials (ICNSM), Zhejiang University and Laboratory of New-Structured Materials (LNSM), Department of Materials Science and Engineering, Zhejiang University, Hangzhou 310027, P. R. China

c Applied Physics, School of Applied Sciences, RMIT University, Melbourne 3001, Australia

Abstract

Band gap narrowing is important for applications of ZnO, especially for photoelectrochemical water splitting. In this work, we carried out first-principles electronic structure calculations with a hybrid density functional on defected ZnO. It is found that nitrogen substitutional doping alone cannot explain the largely enhanced conversion efficiency observed in nitrogen doped ZnO. Instead, complex defects formed by substitutional nitrogen and intrinsic defects play an important role in the band gap narrowing, in agreement with recent experimental results. We propose ZnO fabricated in a Zn-rich environment with heavy nitrogen doping as a photocatalyst for hydrogen generation from water splitting. A method for controlling the band gap of ZnO is also proposed.

Graphical abstract: Effect of nitrogen and intrinsic defect complexes on conversion efficiency of ZnO for hydrogen generation from water

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Article information

DOI
https://doi.org/10.1039/C1CP20908F
Article type
Paper
Submitted
25 Mar 2011
Accepted
08 Jul 2011
First published
03 Aug 2011

Phys. Chem. Chem. Phys., 2011,13, 15973-15976

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Effect of nitrogen and intrinsic defect complexes on conversion efficiency of ZnO for hydrogen generation from water

Y. H. Lu, S. P. Russo and Y. P. Feng, Phys. Chem. Chem. Phys., 2011, 13, 15973 DOI: 10.1039/C1CP20908F

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