Plasmon-Enhanced Hydrogen Evolution on Au-InVO4 Hybrid Microspheres

Shao-Wen Cao; Jun Fang; Mohammad Mehdi Shahjamali; Freddy Y. C. Boey; James Barber; Say Chye Joachim Loo; Can Xue

doi:10.1039/C2RA20405C

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RSC Advances

Issue 13, 2012

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Plasmon-Enhanced Hydrogen Evolution on Au-InVO₄ Hybrid Microspheres

Shao-Wen Cao,^a Jun Fang,^a Mohammad Mehdi Shahjamali,^a Freddy Y. C. Boey,^a James Barber,^a^b Say Chye Joachim Loo*^a and Can Xue*^a

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Solar Fuels Laboratory, School of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore, Singapore
E-mail: cxue@ntu.edu.sg

Division of Molecular Biosciences, Imperial College London, U.K.

RSC Adv., 2012,2, 5513-5515

DOI: 10.1039/C2RA20405C
Received 06 Mar 2012, Accepted 19 Apr 2012
First published online 25 Apr 2012

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We demonstrate plasmon-enhanced hydrogen evolution from photocatalytic water reduction using Au-InVO₄ hybrid microspheres. The surface plasmons of gold nanoparticles enhance the sub-band gap excitation of InVO₄ and promote charge separation on its surface through plasmon-exciton coupling, thereby significantly improving their photocatalytic efficiency.

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Shao-Wen Cao
Jun Fang
Mohammad Mehdi Shahjamali
Freddy Y. C. Boey
James Barber
Say Chye Joachim Loo
Can Xue

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Plasmon-Enhanced Hydrogen Evolution on Au-InVO₄ Hybrid Microspheres