Efficient Continuous Light-Driven Electrochemical Water Splitting Enabled by Monolithic Perovskite-Silicon Tandem Photovoltaics

Authors :: Datta, Kunal (author)
Branco, Bruno (author)
Zhao, Y. (author)
Zardetto, Valerio (author)
Phung, Nga (author)
Bracesco, Andrea (author)
Mazzarella, L. (author)
Wienk, Martijn M. (author)
Isabella, O. (author)
Datta, Kunal (author)
Branco, Bruno (author)
Zhao, Y. (author)
Zardetto, Valerio (author)
Phung, Nga (author)
Bracesco, Andrea (author)
Mazzarella, L. (author)
Wienk, Martijn M. (author)
Isabella, O. (author)
Publication Year :: 2022
Abstract: Solar-assisted water electrolysis is a promising technology for storing the energy of incident solar irradiation into hydrogen as a fuel. Here, an integrated continuous flow electrochemical reactor coupled to a monolithic perovskite-silicon tandem solar cell is demonstrated that provides light-driven electrochemical solar-to-hydrogen conversion with an energy conversion efficiency exceeding 21% at 1-Sun equivalent light intensity and stable operation during three simulated day-night cycles.<br />Photovoltaic Materials and Devices

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