Ahmad Mojiri scite author profile

Due to the inherent broadband nature of the solar radiation, combined with the narrow spectral sensitivity range of direct solar to electricity devices, there is a massive opportunity to manipulate the solar spectrum to increase the functionality and efficiency of solar energy conversion devices. Spectral splitting or manipulation facilitates the efficient combination of both high-temperature solar thermal systems, which can absorb over the entire solar spectrum to create heat, and photovoltaic cells, which only convert a range of wavelengths to electricity. It has only recently been possible, with the development of nanofabrication techniques, to integrate micro-and nano-photonic structures as spectrum splitters/manipulators into solar energy conversion devices. In this paper, we summarize the recent developments in beam splitting techniques, and highlight some relevant applications including combined PV-thermal collectors and efficient algae production, and suggest paths for future development in this field.

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Performance testing of a spectral beam splitting hybrid PVT solar receiver for linear concentrators

Stanley

Mojiri

Rahat

et al. 2016

Applied Energy

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A spectral-splitting PV–thermal volumetric solar receiver

et al. 2016

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Ahmad Mojiri

Spectral beam splitting for efficient conversion of solar energy—A review

Spectral splitting strategy and optical model for the development of a concentrating hybrid PV/T collector

Spectral light management for solar energy conversion systems

Performance testing of a spectral beam splitting hybrid PVT solar receiver for linear concentrators

A spectral-splitting PV–thermal volumetric solar receiver

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