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W3159394501 startingPage "102463" @default.
W3159394501 abstract "Promoting solar fuels as a viable alternative to hydrocarbons calls for technologies that couple efficiency, durability, and low cost. In this work we elucidate how hybrid organic-inorganic systems employing hybrid photocathodes (HPC) and perovskite solar cells (PSC) could eventually match these needs, enabling sustainable and clean hydrogen production. First, we demonstrate a system comprising an HPC, a PSC, and a Ru-based oxygen evolution catalyst reaching a solar-to-hydrogen (STH) efficiency above 2%. Moving from this experimental result, we elaborate a perspective for this technology by adapting the existing models to the specific case of an HPC-PSC tandem. We found two very promising scenarios: one with a 10% STH efficiency, achievable using the currently available semiconducting polymers and the widely used methylammonium lead iodide (MAPI) PSC, and the other one with a 20% STH efficiency, requiring dedicated development for water-splitting applications of recently reported high-performing organic semiconductors and narrow band-gap perovskites." @default.
W3159394501 created "2021-05-10" @default.
W3159394501 creator A5038050253 @default.
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W3159394501 date "2021-05-01" @default.
W3159394501 modified "2023-10-07" @default.
W3159394501 title "Photoelectrochemical water splitting by hybrid organic-inorganic systems: Setting the path from 2% to 20% solar-to-hydrogen conversion efficiency" @default.
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W3159394501 cites W1847804215 @default.
W3159394501 cites W1888136223 @default.
W3159394501 cites W1970325180 @default.
W3159394501 cites W1971972438 @default.
W3159394501 cites W1984514204 @default.
W3159394501 cites W1994751694 @default.
W3159394501 cites W2018227731 @default.
W3159394501 cites W2020444166 @default.
W3159394501 cites W2027309127 @default.
W3159394501 cites W2040634925 @default.
W3159394501 cites W2041733209 @default.
W3159394501 cites W2088153094 @default.
W3159394501 cites W2095579818 @default.
W3159394501 cites W2098811911 @default.
W3159394501 cites W2110707783 @default.
W3159394501 cites W2116382224 @default.
W3159394501 cites W2136291721 @default.
W3159394501 cites W2140106934 @default.
W3159394501 cites W2204556942 @default.
W3159394501 cites W2216524718 @default.
W3159394501 cites W2239289587 @default.
W3159394501 cites W2262498276 @default.
W3159394501 cites W2289994827 @default.
W3159394501 cites W2400024430 @default.
W3159394501 cites W2436670309 @default.
W3159394501 cites W2477565447 @default.
W3159394501 cites W2515001422 @default.
W3159394501 cites W2538588388 @default.
W3159394501 cites W2543058446 @default.
W3159394501 cites W2550759927 @default.
W3159394501 cites W2559200238 @default.
W3159394501 cites W2582470859 @default.
W3159394501 cites W2591756686 @default.
W3159394501 cites W2595617626 @default.
W3159394501 cites W2604473414 @default.
W3159394501 cites W2613031547 @default.
W3159394501 cites W2623208246 @default.
W3159394501 cites W2732376772 @default.
W3159394501 cites W2735952616 @default.
W3159394501 cites W2736159864 @default.
W3159394501 cites W2736792704 @default.
W3159394501 cites W2753746036 @default.
W3159394501 cites W2759060290 @default.
W3159394501 cites W2760629443 @default.
W3159394501 cites W2766503406 @default.
W3159394501 cites W2770831730 @default.
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W3159394501 cites W2778174089 @default.
W3159394501 cites W2789787743 @default.
W3159394501 cites W2796258538 @default.
W3159394501 cites W2803685703 @default.
W3159394501 cites W2803875194 @default.
W3159394501 cites W2810797077 @default.
W3159394501 cites W2811243841 @default.
W3159394501 cites W2886600502 @default.
W3159394501 cites W2888728690 @default.
W3159394501 cites W2891801940 @default.
W3159394501 cites W2894787267 @default.
W3159394501 cites W2895491144 @default.
W3159394501 cites W2908095224 @default.
W3159394501 cites W2909990379 @default.
W3159394501 cites W2934047558 @default.
W3159394501 cites W2943683623 @default.
W3159394501 cites W2984667889 @default.
W3159394501 cites W2991137558 @default.
W3159394501 cites W3004765623 @default.
W3159394501 cites W3015503859 @default.
W3159394501 cites W3092700013 @default.
W3159394501 cites W572223135 @default.
W3159394501 doi "https://doi.org/10.1016/j.isci.2021.102463" @default.
W3159394501 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8121964" @default.
W3159394501 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34027321" @default.
W3159394501 hasPublicationYear "2021" @default.
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