Solar driven ammonia synthesis with Co-TiOx and Ag nanowires enhanced Cu₂ZnSnS₄ photocathodes
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Date
2024
Authors
Zhou, S.
Sun, K.
Toe, C.Y.
Huang, J.
Wang, A.
Yuwono, J.
Kumar, P.
Wan, T.
Zhang, D.
Ma, Z.
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Applied Catalysis B: Environmental, 2024; 348:123836-1-123836-10
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Shujie Zhou, Kaiwen Sun, Cui Ying Toe, Jialiang Huang, Ao Wang, Jodie Yuwono, Priyank Kumar, Tao Wan, Doudou Zhang, Zhipeng Ma, Jitraporn Vongsvivut, Dewei Chu, Xiaojing Hao, Rose Amal
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Abstract
Restoring ammonia from waste nitrate stands as a promising strategy for reducing reliance on the energyintensive Haber-Bosch process and tackling environmental pollutants. Advancing the catalytic aspects of photoelectrochemical (PEC) ammonia synthesis via waste nitrate reduction is of great importance to enhance its viability for sustainable chemical production. However, this process still suffers from low ammonia faradaic efficiency (FE) with high operational potential due to its involvement in multi-electron reactions. Herein, we integrated a cobalt-doped TiOx (Co-TiOx) cocatalyst and Ag nanowires (NWs) electron extraction layer onto TiOx/CdS/Cu2ZnSnS4 (CZTS) photocathode, achieving nearly 100 % ammonia FE and an onset potential of ~0.49 V vs. RHE. Evidenced by the in-situ synchrotron-radiated FTIR (SR-FTIR) and theoretical calculations, the increased ratio of surface oxygen vacancy sites (Vo) induced by Co-TiOx is crucial for the key reaction intermediates adsorption (i.e. *NO3 and *NO2) for subsequent ammonia production. Moreover, the transparent Ag NWs facilitates the electron extraction from TiOx/CdS/CZTS to the surface catalytic sites. Powered by CZTS solar cells, a standalone solar-to-ammonia system has been demonstrated with outstanding activity and catalytic performance.
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© 2024 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).