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Stretchable CPV module with 15.4% efficiency

Japanese scientists have fabricated a prototype CPV panel that could be applied on spherical surfaces with a curvature radius of 100 mm, and under outdoor one-sun irradiation. The module is based on a silicone concentrator lens, a thermoplastic polyurethane sheet, and a rigid III–V triple-junction solar cell.

A Japanese research team has developed a stretchable micro-scale concentrator photovoltaic (CPV) module that can be installed on arbitrary 3D curved surfaces characterized by sharp curvatures.

The module measures 32 mm × 40 mm, with a thickness of 4.1 mm. It weighs in at 2.84 kg m2. It is based on a silicone concentrator lens, a thermoplastic polyurethane sheet, and a rigid III–V triple-junction solar cell.

“When perfectly fitted on a 3D curved surface with a sharp curvature, a prototype module achieves an outdoor power conversion efficiency of 15.4% and the daily generated electricity yield improves to a maximum of 190% relative to a non-concentration stretchable PV module,” the scientists said.

The 4.10 mm × 4.95 mm triple-junction cells are encapsulated by the stretchable silicone lens, and the module has the same structure as those of light-emitting diode (LED) packages.

“The ratio of the total cell area to the active power-generation area of the module (32 mm × 40 mm) was 31.7%, and the ratio of the active cell area to the active module area was 28.3%,” the academics said.

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They claim that the lens-encapsulating design has the advantage of reducing the number of lens-air interfaces penetrated by sunlight, which results in a lower Fresnel loss at the interfaces between dissimilar materials. The so-called Fresnel loss is an optical power loss caused by a refractive-index difference across propagation media interfaces encountered by an electromagnetic wave.

The prototype was processed with a stretchable conductive paste and was screen-printed on the TPU sheet. It formed an electrode pattern and the cells were placed on this electrode pattern through die-bonding and wire-bonding. Injection molding was used to form the lens on the device.

Outdoor testing showed that the module could fit perfectly on spherical surfaces with a curvature radius of 100 mm, and under outdoor one-sun irradiation. According to the researchers, the stretchable panel could be placed on car roofs (without gaps), motorcycle helmets, airfoil-shaped surfaces, and even concave surfaces.

The scientists described the device in the paper “Stretchable micro-scale concentrator photovoltaic module with 15.4% efficiency for three-dimensional curved surfaces,” which was recently published in Communications Materials. The research team included scientists from Japan’s Nagaoka University of Technology and Toyota Motor, which recently assessed the potential to use solar cells based on gallium arsenide (GaAs) and other III-V materials in passenger cars that are partially powered by PV.

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Source: pv magazine