Perovskite applications

Ascent Solar Technologies, a developer and manufacturer of flexible thin-film photovoltaic solutions, has announced the signing of a Joint Development Agreement with German agrivoltaic thin-film solar tube maker, TubeSolar, to pursue the Agricultural-photovoltaics/Agrivoltaics (APV) market.

It was indicated that this JDA is a multi-million-dollar, long-term supply agreement, forming a strategic partnership between Ascent Solar and TubeSolar. This JDA includes (i) long-term supplier of customized PV (“PV Foils”) for TubeSolar, (ii) Non-Recurring Engineering Fee (“NRE Fee”) of up to $4 Million, payable by TubeSolar to Ascent Solar in three parts, (iii) establishment of a joint venture entity to develop a new manufacturing facility located in Germany (“JV FAB”), (iv) the Company will benefit from milestone payments by TubeSolar of up to $13.5 Million, and (v) joint development efforts in next generation, high efficiency CIGS-Perovskite tandem PV cells.

Researchers from Japan's Tsukuba University have found that ultraviolet light can modulate oxide ion transport in a perovskite crystal at room temperature.

The performance of battery and fuel cell electrolytes depends on the motions of electrons and ions within the electrolyte. Modulating the motion of oxide ions within the electrolyte could enhance future battery and fuel cell functionality by increasing the efficiency of the energy storage and output. Use of light to modulate the motions of ions - which expands the source of possible energy inputs - has only been demonstrated thus far for small ions such as protons. Overcoming this limitation of attainable ion motions is something the researchers in this study aimed to address.