Photopolymer Holographic Lenses for Solar Energy Applications: A Review

Alfaro, Eder; Lloret, Tomás; Vilardy, Juan M.; Bastidas, Marlón; Morales-Vidal, Marta; Pascual, Inmaculada

doi:10.3390/polym16060732

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2024

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Cited by 6 publications

References 107 publications

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Holographic solar concentrator with wide band using multi-wavelength transmission grating

Wu,

Shin,

Kwon

et al. 2024

Optik

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Holographic solar concentrator with wide band using multi-wavelength transmission grating

Wu,

Shin,

Kwon

et al. 2024

Optik

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Direct laser patterning of new cellulose based photopolymer

Bianco,

Oggioni,

Coppola

et al. 2024

Photosensitive Materials and Their Applications III

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Simple photopolymer based on pentaerythritol tetrakis[3-mercaptopropionate] (PETMP) dispersed in Cellulose Acetate Butyrate (CAB) binder is developed to make surface and volume phase patterns transferred by means of a Direct Laser Writing (DLW) using 405 nm laser. 1D and 2D gratings, as well as complex Computer Generated Holograms (CGHs) are printed and fully characterized exploiting different imaging techniques, including digital holography to highlight the contribution of surface phase shift and volume phase shift. Moreover, the diffraction efficiency of gratings is measured and correlated to the writing conditions.

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Towards sustainable solar energy: optimization of a holographic concentrator in a green photopolymer

Lloret López,

Morales-Vidal,

Alfaro Alfaro

et al. 2024

Photosensitive Materials and Their Applications III

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Nowadays, one of the challenges in obtaining competitive photovoltaics is to achieve lightweight, low-cost, and free-tracking systems. It is also desired to eliminate wavelengths that can damage the photovoltaic cell by overheating. To this end, volume holographic lenses (HLs) allow controlling the solar radiation that hits the photocell, avoiding harmful radiation that can damage photocells, such as infrared radiation, which heats the solar cells, but does not efficiently convert solar energy into electrical energy. In addition, holographic solar concentrators based on multiplexed HLs have the advantage that they do not require any solar tracker. In this work, we present the optimization of the relevant conditions in the fabrication of multiplexed HLs stored in Biophotopol. These parameters refer to both the material factors (optimal concentrations of dye and monomer, thickness) and the optical recording factors (optimal number of multiplexed HLs, angular distance peak-to-peak, and exposure times). Finally, a theoretical study of the exposure times has been done using the exposure schedule method (ESM) to improve the average diffraction efficiency.

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Photopolymer Holographic Lenses for Solar Energy Applications: A Review

Cited by 6 publications

References 107 publications

Holographic solar concentrator with wide band using multi-wavelength transmission grating

Holographic solar concentrator with wide band using multi-wavelength transmission grating

Direct laser patterning of new cellulose based photopolymer

Towards sustainable solar energy: optimization of a holographic concentrator in a green photopolymer

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