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      Solution–processed Cu2O/ZnO/TiO2/Pt nanowire photocathode for efficient photoelectrochemical water splitting

      , , , ,
      Journal of Alloys and Compounds
      Elsevier BV

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          Highly active oxide photocathode for photoelectrochemical water reduction.

          A clean and efficient way to overcome the limited supply of fossil fuels and the greenhouse effect is the production of hydrogen fuel from sunlight and water through the semiconductor/water junction of a photoelectrochemical cell, where energy collection and water electrolysis are combined into a single semiconductor electrode. We present a highly active photocathode for solar H(2) production, consisting of electrodeposited cuprous oxide, which was protected against photocathodic decomposition in water by nanolayers of Al-doped zinc oxide and titanium oxide and activated for hydrogen evolution with electrodeposited Pt nanoparticles. The roles of the different surface protection components were investigated, and in the best case electrodes showed photocurrents of up to -7.6 mA cm(-2) at a potential of 0 V versus the reversible hydrogen electrode at mild pH. The electrodes remained active after 1 h of testing, cuprous oxide was found to be stable during the water reduction reaction and the Faradaic efficiency was estimated to be close to 100%. © 2011 Macmillan Publishers Limited. All rights reserved
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            Solar energy supply and storage for the legacy and nonlegacy worlds.

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              Technical and economic feasibility of centralized facilities for solar hydrogen production via photocatalysis and photoelectrochemistry

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                Author and article information

                Journal
                Journal of Alloys and Compounds
                Journal of Alloys and Compounds
                Elsevier BV
                09258388
                April 2022
                April 2022
                : 899
                : 163348
                Article
                10.1016/j.jallcom.2021.163348
                6e1ae976-9282-45a5-8a3c-802fa3cd22cb
                © 2022

                https://www.elsevier.com/tdm/userlicense/1.0/

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