Plasmon-Enhanced Solar-Driven Hydrogen Evolution Using Plasmonic Metasurface Broadband Absorbers

Tzu-Yu Peng; Tzu-Yu Peng; Meng-Ju Yu; Chih-Li Chang; Chih-Li Chang; Hao-Yu Lan; Zong-Yi Chiao; Zong-Yi Chiao; Yu-Chia Chen; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Ho Wai Howard Lee; Yia-Chung Chang; Shu-Wei Chang; Takuo Tanaka; Takuo Tanaka; Takuo Tanaka; Vincent Tung; Ho-Hsiu Chou; Yu-Jung Lu; Yu-Jung Lu

doi:10.1364/CLEOPR.2022.P_CM16_13

Proceedings of the 2022 Conference on Lasers and Electro-Optics Pacific Rim
Technical Digest Series (Optica Publishing Group, 2022),
paper P_CM16_13
•https://doi.org/10.1364/CLEOPR.2022.P_CM16_13

Plasmon-Enhanced Solar-Driven Hydrogen Evolution Using Plasmonic Metasurface Broadband Absorbers

Tzu-Yu Peng, Meng-Ju Yu, Chih-Li Chang, Hao-Yu Lan, Zong-Yi Chiao, Yu-Chia Chen, Ho Wai Howard Lee, Yia-Chung Chang, Shu-Wei Chang, Takuo Tanaka, Vincent Tung, Ho-Hsiu Chou, and Yu-Jung Lu

Conference on Lasers and Electro-Optics/Pacific Rim 2022

Sapporo Japan
31 August–5 September 2022
ISBN:

From the session
Poster Session (P_CM16)

Not Accessible

Your library or personal account may give you access

Get PDF
Email
Share
Get Citation
Copy Citation Text
T. Peng, M. Yu, C. Chang, H. Lan, Z. Chiao, Y. Chen, H. W. H. Lee, Y. Chang, S. Chang, T. Tanaka, V. Tung, H. Chou, and Y. Lu, "Plasmon-Enhanced Solar-Driven Hydrogen Evolution Using Plasmonic Metasurface Broadband Absorbers," in Proceedings of the 2022 Conference on Lasers and Electro-Optics Pacific Rim, Technical Digest Series (Optica Publishing Group, 2022), paper P_CM16_13.

Export Citation
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
Citation alert
Save article

Abstract

Broadband perfect absorbers in the visible region have attracted considerable attention in many fields, especially in solar thermophotovoltaic and energy harvesting systems. However, developing light absorbers with high absorptivity, thermal stability, and a broad bandwidth remains a great challenge. Here, we theoretically and experimentally demonstrate that transition metal nitride metasurface absorber exhibits broadband absorption with an average absorption of more than 92% over a wavelength range of 400 to 750 nm [¹]. The increase in absorption is attributed to the localized surface plasmon resonance (LSPR). We report the plasmon-enhanced visible-light-driven hydrogen production from water using a polymer photocatalyst integrated with a TiN metasurface absorber. A 300% increase in the hydrogen evolution rate was observed due to the LSPR that enhances the rates of light absorption, carrier separation, and hot-carrier transfer in polymer photocatalyst. The concept is extensible to other types of photocatalyst such as 2D materials. We will also discuss the outlook for plasmonic metasurface in applications of solar energy harvesting systems.

PDF Article

More Like This

Broadband infrared absorber based on a sputter deposited hydrogenated carbon multilayer enhancing MOEMS based CMOS thermopile performance

Sam Ahmadzadeh, Des Gibson, Lewis Fleming, David Hutson, Greg Mcgann, Shigeng Song, Ameen Belke, Allan James, Stephen Wells, Alan Forsyth, and Suzanne Bruckshaw
MC.4 Optical Interference Coatings (OIC) 2022

Broadband Plasmonic Absorbers for Highly efficient Solar Steam Generation

Lin Zhou, Yingling Tan, and Jia Zhu
PW3B.3 Optical Nanostructures and Advanced Materials for Photovoltaics (SOLED) 2015

Simultaneous Implementation of Antireflection and Antitransmission Through Multipolar Interference in Plasmonic Metasurfaces and Applications in Optical Absorbers and Broadband Polarizers

Jihua Zhang, Ran Wei, and Chunlei Guo
JW5A.60 Frontiers in Optics (FiO) 2022

Previous Article Next Article