1. Introduction The increasing global demand for sustainable energy sources and emerging environmental issues have pushed the development of energy conversion and storage technologies to the forefront of chemical rese...1. Introduction The increasing global demand for sustainable energy sources and emerging environmental issues have pushed the development of energy conversion and storage technologies to the forefront of chemical research [1,2]. In particular, electrochemical CO_(2) reduction(CO_(2) R) to value-added fuels and chemicals presents a feasible pathway for renewable energy storage and could help mitigate the ever-increasing CO_(2) emissions [3].展开更多
基金supported by the National Natural Science Foundation of China(Grants 21872039,22072030 and 52025023)the Science and Technology Commission of Shanghai Municipality(Grants 18JC1411700 and 19DZ2270100)+3 种基金the Key R&D Program of Guangdong Province(Grant 2020B010189001)funding support from the original personalized project of Fudan Universityfunding support from China Postdoctoral Science Foundation(2021M700810)。
文摘1. Introduction The increasing global demand for sustainable energy sources and emerging environmental issues have pushed the development of energy conversion and storage technologies to the forefront of chemical research [1,2]. In particular, electrochemical CO_(2) reduction(CO_(2) R) to value-added fuels and chemicals presents a feasible pathway for renewable energy storage and could help mitigate the ever-increasing CO_(2) emissions [3].
