Influence of gas flow rate on the formation of ZnO nanorods and their effects on photoelectrochemical response

Authors

Sudhakar Shet, National Renewable Energy Laboratory
Kwang Soon Ahn, Yeungnam University
Ravindra Nuggehalli, New Jersey Institute of Technology
Yanfa Yan, National Renewable Energy Laboratory
Todd Deutsch, National Renewable Energy Laboratory
John Turner, National Renewable Energy Laboratory
Mowafak Al-Jassim, National Renewable Energy Laboratory

Document Type

Syllabus

Publication Date

12-2-2010

Abstract

ZnO thin films are deposited in pure Ar and mixed Ar and N2 gas ambient at substrate temperature of 500°C by rf sputtering ZnO targets. All the films were deposited on fluorine doped tin oxide coated glass. We find that the presence of optimum N2 to Ar ratio in the deposition ambient promotes the formation of well aligned ZnO nanorods. ZnO thin films grown at 25 % N2 gas flow rate promoted aligned nanorods along c-axis exhibit significantly enhanced photoelectrochemical response, as compared to ZnO thin films grown at other N2 to Ar gas flow ratios. Our results suggest that chamber ambient is very important for the formation of aligned nanostructures, which offer potential advantages for improving the efficiency of photoelectrochemical water splitting for H2 production.

Identifier

105008485877 (Scopus)

ISBN

[9780470927298, 9780470930991]

Publication Title

Advances in Materials Science for Environmental and Nuclear Technology

First Page

267

Last Page

274

Volume

222

Recommended Citation

Shet, Sudhakar; Ahn, Kwang Soon; Nuggehalli, Ravindra; Yan, Yanfa; Deutsch, Todd; Turner, John; and Al-Jassim, Mowafak, "Influence of gas flow rate on the formation of ZnO nanorods and their effects on photoelectrochemical response" (2010). Faculty Publications. 5884.
https://digitalcommons.njit.edu/fac_pubs/5884