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Single‐atom catalysts have emerged as a promising class of catalysts due to their tailored coordination environments on the support, which can improve a variety of catalytic reactions, making them a highly desirable research subject in materials science with significant potential for industrial applications. However, traditional synthesis methods mainly obtain low‐yield powder catalysts without macroscopic...
The demand for highly efficient conversion and storage of renewable energy sources calls for advanced electrocatalytic technologies. 2D graphene has long been investigated as a versatile material platform with flexible structure and tunable surface properties for the design of efficient electrocatalysts. In recent years, new types of graphene derivatives and analogues keep emerging and showing great...
Single‐atom sites can not only act as active centers, but also serve as promising catalyst regulators and/or promoters. However, in many complex reaction systems such as electrochemical CO2 reduction reaction (CO2RR), the introduction of single‐atom regulators may inevitably induce the competitive hydrogen evolution reaction (HER) and thus reduce the selectivity. Here, the authors demonstrate that...