A selective metasurface absorber with an amorphous carbon interlayer for solar thermal applications

Chenglong Wan; Yinglung Ho; S. Nunez-Sanchez; Lifeng  Chen; M. Lopez-Garcia; J. Pugh; Bofeng Zhu; P. Selvaraj; T. Mallick; S. Senthilarasu; M. J.  Cryan

doi:10.1016/j.nanoen.2016.05.013

A selective metasurface absorber with an amorphous carbon interlayer for solar thermal applications

Chenglong Wan, Yinglung Ho, S. Nunez-Sanchez, Lifeng Chen, M. Lopez-Garcia, J. Pugh, Bofeng Zhu, P. Selvaraj, T. Mallick, S. Senthilarasu, M. J. Cryan

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

This paper presents fabrication, measurement and modelling results for a metal-dielectric-metal metasurface absorber for solar thermal applications. The structure uses amorphous carbon as an inter-layer between thin gold films with the upper film patterned with a 2D periodic array using focused ion beam etching. The pattern has been optimised to give high absorptance from 400 to 1200 nm and low absorptance above this wavelength range to minimise thermal radiation and hence obtain higher temperature performance. Wide angle absorptance results are shown and detailed modelling of a realistic nanostructured upper layer results in excellent agreement between measured and modelled results. The use of gold in this paper is a first step towards a high temperature metasurface where gold can be replaced by other refractory metals such as tungsten or chrome.

Original language	English
Pages (from-to)	392-397
Number of pages	6
Journal	Nano Energy
Volume	26
Early online date	26 May 2016
DOIs	https://doi.org/10.1016/j.nanoen.2016.05.013
Publication status	Published - Aug 2016

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Metasurface
Selective surface

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10.1016/j.nanoen.2016.05.013

Cite this

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title = "A selective metasurface absorber with an amorphous carbon interlayer for solar thermal applications",

abstract = "This paper presents fabrication, measurement and modelling results for a metal-dielectric-metal metasurface absorber for solar thermal applications. The structure uses amorphous carbon as an inter-layer between thin gold films with the upper film patterned with a 2D periodic array using focused ion beam etching. The pattern has been optimised to give high absorptance from 400 to 1200 nm and low absorptance above this wavelength range to minimise thermal radiation and hence obtain higher temperature performance. Wide angle absorptance results are shown and detailed modelling of a realistic nanostructured upper layer results in excellent agreement between measured and modelled results. The use of gold in this paper is a first step towards a high temperature metasurface where gold can be replaced by other refractory metals such as tungsten or chrome.",

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author = "Chenglong Wan and Yinglung Ho and S. Nunez-Sanchez and Lifeng Chen and M. Lopez-Garcia and J. Pugh and Bofeng Zhu and P. Selvaraj and T. Mallick and S. Senthilarasu and Cryan, \{M. J.\}",

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AU - Wan, Chenglong

AU - Ho, Yinglung

AU - Nunez-Sanchez, S.

AU - Chen, Lifeng

AU - Lopez-Garcia, M.

AU - Pugh, J.

AU - Zhu, Bofeng

AU - Selvaraj, P.

AU - Mallick, T.

AU - Senthilarasu, S.

AU - Cryan, M. J.

PY - 2016/8

Y1 - 2016/8

N2 - This paper presents fabrication, measurement and modelling results for a metal-dielectric-metal metasurface absorber for solar thermal applications. The structure uses amorphous carbon as an inter-layer between thin gold films with the upper film patterned with a 2D periodic array using focused ion beam etching. The pattern has been optimised to give high absorptance from 400 to 1200 nm and low absorptance above this wavelength range to minimise thermal radiation and hence obtain higher temperature performance. Wide angle absorptance results are shown and detailed modelling of a realistic nanostructured upper layer results in excellent agreement between measured and modelled results. The use of gold in this paper is a first step towards a high temperature metasurface where gold can be replaced by other refractory metals such as tungsten or chrome.

AB - This paper presents fabrication, measurement and modelling results for a metal-dielectric-metal metasurface absorber for solar thermal applications. The structure uses amorphous carbon as an inter-layer between thin gold films with the upper film patterned with a 2D periodic array using focused ion beam etching. The pattern has been optimised to give high absorptance from 400 to 1200 nm and low absorptance above this wavelength range to minimise thermal radiation and hence obtain higher temperature performance. Wide angle absorptance results are shown and detailed modelling of a realistic nanostructured upper layer results in excellent agreement between measured and modelled results. The use of gold in this paper is a first step towards a high temperature metasurface where gold can be replaced by other refractory metals such as tungsten or chrome.

KW - Metasurface

KW - Selective surface

UR - https://www.scopus.com/pages/publications/84973293673

U2 - 10.1016/j.nanoen.2016.05.013

DO - 10.1016/j.nanoen.2016.05.013

M3 - Article

SN - 2211-2855

VL - 26

SP - 392

EP - 397

JO - Nano Energy

JF - Nano Energy

ER -

A selective metasurface absorber with an amorphous carbon interlayer for solar thermal applications

Abstract

UN SDGs

Keywords

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