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Control of evolution of porous copper-based metal-organic materials for electroreduction of CO2 to multi-carbon products.
Li, Lili; Shan, Lutong; Sheveleva, Alena M; He, Meng; Ma, Yujie; Zhou, Yiqi; Nikiel, Marek; Lopez-Odriozola, Laura; Natrajan, Louise S; McInnes, Eric J L; Schröder, Martin; Yang, Sihai; Tuna, Floriana.
Affiliation
  • Li L; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Shan L; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Sheveleva AM; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • He M; Photon Science Institute, University of Manchester Manchester M13 9PL UK.
  • Ma Y; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Zhou Y; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Nikiel M; Institute for Advanced Materials and Technology, University of Science and Technology Beijing Beijing 100083 China.
  • Lopez-Odriozola L; Photon Science Institute, University of Manchester Manchester M13 9PL UK.
  • Natrajan LS; Department of Materials, University of Manchester Manchester M13 9PL UK.
  • McInnes EJL; National Graphene Institute, University of Manchester M13 9PL UK.
  • Schröder M; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Yang S; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
  • Tuna F; Department of Chemistry, University of Manchester Manchester M13 9PL UK M.Schroder@manchester.ac.uk Sihai.Yang@manchester.ac.uk Floriana.Tuna@manchester.ac.uk.
Mater Adv ; 4(8): 1941-1948, 2023 Apr 24.
Article de En | MEDLINE | ID: mdl-37113466
ABSTRACT
Electrochemcial reduction of CO2 to multi-carbon (C2+) products is an important but challenging task. Here, we report the control of structural evolution of two porous Cu(ii)-based materials (HKUST-1 and CuMOP, MOP = metal-organic polyhedra) under electrochemical conditions by adsorption of 7,7,8,8-tetracyanoquinodimethane (TNCQ) as an additional electron acceptor. The formation of Cu(i) and Cu(0) species during the structural evolution has been confirmed and analysed by powder X-ray diffraction, and by EPR, Raman, XPS, IR and UV-vis spectroscopies. An electrode decorated with evolved TCNQ@CuMOP shows a selectivity of 68% for C2+ products with a total current density of 268 mA cm-2 and faradaic efficiency of 37% for electrochemcial reduction of CO2 in 1 M aqueous KOH electrolyte at -2.27 V vs. RHE (reversible hydrogen electrode). In situ electron paramagnetic resonance spectroscopy reveals the presence of carbon-centred radicals as key reaction intermediates. This study demonstrates the positive impact of additional electron acceptors on the structural evolution of Cu(ii)-based porous materials to promote the electroreduction of CO2 to C2+ products.
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Texte intégral: 1 Collection: 01-internacional Base de données: MEDLINE Langue: En Journal: Mater Adv Année: 2023 Type de document: Article
Texte intégral
Ajouter à My VHL
Imprimer
XML
PubMed Links
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Texte intégral: 1 Collection: 01-internacional Base de données: MEDLINE Langue: En Journal: Mater Adv Année: 2023 Type de document: Article