The demand for new catalysts for renewable energy production has become crucial.As an alternative to metal catalysts for electrocatalysis to produce energy sources,metal-phthalocyanine(MPc)electrocatalysts have shown ...The demand for new catalysts for renewable energy production has become crucial.As an alternative to metal catalysts for electrocatalysis to produce energy sources,metal-phthalocyanine(MPc)electrocatalysts have shown potential.Their physicochemical and electrochemical properties depend on the chemical structure of the MPc and the central metal atom.Recent reviews of MPcs focused on their electrochemical performance in specific catalytic reactions,such as oxygen reduction reaction and CO_(2)reduction reaction.However,understanding the structure of MPcs in depth is important,since their electrochemical catalytic activity is affected by structural modifications of MPcs.Therefore,this minireview focuses on how the molecular structure of MPcs affects electrochemical catalysis.展开更多
基金the Research Fund of the National Research Foundation of Korea(NRF-2021R1A3B1077184,NRF-2021R1F1A1064057 and NRF-2021R1A4A5032876).
文摘The demand for new catalysts for renewable energy production has become crucial.As an alternative to metal catalysts for electrocatalysis to produce energy sources,metal-phthalocyanine(MPc)electrocatalysts have shown potential.Their physicochemical and electrochemical properties depend on the chemical structure of the MPc and the central metal atom.Recent reviews of MPcs focused on their electrochemical performance in specific catalytic reactions,such as oxygen reduction reaction and CO_(2)reduction reaction.However,understanding the structure of MPcs in depth is important,since their electrochemical catalytic activity is affected by structural modifications of MPcs.Therefore,this minireview focuses on how the molecular structure of MPcs affects electrochemical catalysis.
