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Broadband solar absorption by chromium metasurface for highly efficient solar thermophotovoltaic systems

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  • Rana, Ahsan Sarwar
  • Zubair, Muhammad
  • Chen, Yifan
  • Wang, Zeng
  • Deng, Jie
  • Chani, Muhammad Tariq Saeed
  • Danner, Aaron
  • Teng, Jinghua
  • Mehmood, Muhammad Qasim

Abstract

We report a broadband metasurface solar absorber composed of refractory material chromium (Cr) for the intermediate structure of a solar thermophotovoltaic (STPV) system that can overcome the Shockley–Queisser limit for efficient solar energy harvesting. The metasurface absorber exhibits high broadband absorptance with an average higher than 90% for 300–1200 nm. The self-passivation property of chromium ensures resistance to oxidation and corrosion, besides the benefit of being a low-cost material having stability at higher temperatures. The proposed absorber forms one part of the intermediate structure, whereas the emitter forms its second part. The emitter shapes the incoming electromagnetic (EM) waves to have energies just above the PV cell bandgap to assist in efficient electron-hole pair generation. The proposed STPV system can achieve PV cell efficiency of 43.2% with an efficiency greater than 42% in a broad color temperature range of 1597–2573 K, which is comparable to the state-of-the-art. The innovation in our work comes from efficiency enhancement through the hybridization of selectivity and broadband response of the proposed absorbers and emitter. The designs are also subjected to detailed analyses to understand the mechanism behind their performance. Moreover, a robustness check is performed to know which design parameters are crucial to acquiring such results.

Suggested Citation

  • Rana, Ahsan Sarwar & Zubair, Muhammad & Chen, Yifan & Wang, Zeng & Deng, Jie & Chani, Muhammad Tariq Saeed & Danner, Aaron & Teng, Jinghua & Mehmood, Muhammad Qasim, 2023. "Broadband solar absorption by chromium metasurface for highly efficient solar thermophotovoltaic systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 171(C).
    • Handle: RePEc:eee:rensus:v:171:y:2023:i:c:s1364032122008863
    DOI: 10.1016/j.rser.2022.113005
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    References listed on IDEAS

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    1. Oró, Eduard & Depoorter, Victor & Garcia, Albert & Salom, Jaume, 2015. "Energy efficiency and renewable energy integration in data centres. Strategies and modelling review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 429-445.
    2. Angelis-Dimakis, Athanasios & Biberacher, Markus & Dominguez, Javier & Fiorese, Giulia & Gadocha, Sabine & Gnansounou, Edgard & Guariso, Giorgio & Kartalidis, Avraam & Panichelli, Luis & Pinedo, Irene, 2011. "Methods and tools to evaluate the availability of renewable energy sources," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(2), pages 1182-1200, February.
    3. Fei Guo & Ning Li & Frank W. Fecher & Nicola Gasparini & Cesar Omar Ramirez Quiroz & Carina Bronnbauer & Yi Hou & Vuk V. Radmilović & Velimir R. Radmilović & Erdmann Spiecker & Karen Forberich & Chris, 2015. "A generic concept to overcome bandgap limitations for designing highly efficient multi-junction photovoltaic cells," Nature Communications, Nature, vol. 6(1), pages 1-9, November.
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    Cited by:

    1. Habibi, Mohammad & Cui, Longji, 2023. "Modelling and performance analysis of a novel thermophotovoltaic system with enhanced radiative heat transfer for combined heat and power generation," Applied Energy, Elsevier, vol. 343(C).
    2. Guo, Ling & Shi, Minfang & Liu, Yajie & Ma, Jun & Yang, Hongyan, 2023. "High efficient ultra-broadband nanoscale solar energy absorber based on stacked bilayer nano-arrays structure," Renewable Energy, Elsevier, vol. 215(C).

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