Arizona State University

25.1% Efficient Perovskite-Silicon Tandem Device

This research team has designed a large-area two-terminal tandem solar cell that boasts a 25.2% efficiency with over 10 cm2 in area. Learn more about the lithium fluoride interlayer that helps overcome common PV cell issues.

Oct 16, 2023 // Technology, solar cell, perovskite, efficiency, Arizona State University, University of North Carolina, Chapel Hill

A brilliant future: Seeking a 3rd generation of better-performing solar cells

For a greener and much more sustainable economic situation, building better and extra effective solar cells is an essential research study objective within the clean energy market.

Apr 6, 2022 // Technology, USA, solar cells, North America, efficiency, Arizona State University, University of Oklahoma, R. T. Ross, A. J. Nozik, David K. Ferry

Research reveals factors limiting the voltage of polycrystalline CdSeTe solar cells

So far, solar cells based on polycrystalline cadmium selenide telluride (CdSeTe) have actually shown some crucial constraints, despite their low construction costs as well as useful qualities. Most notably, these solar cells display higher voltage losses than other mature photovoltaic or pv innovations (crystalline silicon, for example) as well as this considerably hinders their efficiency and also performance.

Mar 30, 2022 // Technology, NREL, Arizona State University, Colorado State University, CSU, CdSeTe solar cells, ASU, the National Renewable Energy Laboratory, Arthur Onno

Screen-printed heterojunction solar cell with 20.48% performance

Researchers from the United States have utilized new passivated get in touch with styles to show a screen-printed silicon heterojunction solar cell on 40 micron thick standalone wafers.

Aug 25, 2020 // Technology, Manufacturing News, USA, solar cell, heterojunction, silicon, wafers, North America, Arizona State University

New making strategy for 26%- effective tandem perovskite solar cell

UNITED STATE researchers have actually shown a perovskite-silicon tandem cell they assert has reduced reflectance losses and also solid capacity for business manufacturing. The tandem style includes a production procedure including the solution-based blading of perovskites onto distinctive silicon wafers.

Apr 20, 2020 // Technology, Manufacturing News, USA, solar cell, perovskite, North America, efficiency, perovskite-silicon, Arizona State University

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