Synthesis and characterization of barium silicide (BaSi2) nanowire arrays for potential solar applications

Ankit Pokhrel; Leith Samad; Fei Meng; Song Jin

doi:10.1039/C5NR03668B

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Synthesis and characterization of barium silicide (BaSi₂) nanowire arrays for potential solar applications†

Ankit Pokhrel,^a Leith Samad,^a Fei Meng^a and Song Jin*^a

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* Corresponding authors

^a Department of Chemistry, University of Wisconsin – Madison, 1101 University Avenue, Madison, Wisconsin 53706, USA
E-mail: jin@chem.wisc.edu

Abstract

In order to utilize nanostructured materials for potential solar and other energy-harvesting applications, scalable synthetic techniques for these materials must be developed. Herein we use a vapor phase conversion approach to synthesize nanowire (NW) arrays of semiconducting barium silicide (BaSi₂) in high yield for the first time for potential solar applications. Dense arrays of silicon NWs obtained by metal-assisted chemical etching were converted to single-crystalline BaSi₂ NW arrays by reacting with Ba vapor at about 930 °C. Structural characterization by X-ray diffraction and high-resolution transmission electron microscopy confirm that the converted NWs are single-crystalline BaSi₂. The optimal conversion reaction conditions allow the phase-pure synthesis of BaSi₂ NWs that maintain the original NW morphology, and tuning the reaction parameters led to a controllable synthesis of BaSi₂ films on silicon substrates. The optical bandgap and electrochemical measurements of these BaSi₂ NWs reveal a bandgap and carrier concentrations comparable to previously reported values for BaSi₂ thin films.

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Article information

DOI: https://doi.org/10.1039/C5NR03668B
Article type: Paper
Submitted: 04 Jun 2015
Accepted: 21 Sep 2015
First published: 23 Sep 2015
This article is Open Access

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Nanoscale, 2015,7, 17450-17456

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Synthesis and characterization of barium silicide (BaSi₂) nanowire arrays for potential solar applications

A. Pokhrel, L. Samad, F. Meng and S. Jin, Nanoscale, 2015, 7, 17450 DOI: 10.1039/C5NR03668B

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