The article reviews advancements in single-atom catalysis (SAC), highlighting its potential for revolutionizing catalysis by utilizing isolated metal atoms. SAC exhibits unparalleled efficiency and selectivity due to the unique properties of single metal atoms, setting it apart from traditional bulk catalysts. This paper discusses various studies that elaborate on the fundamental principles behind the performance of SAC, including coordination structure and frontier orbital theory, thereby underscoring its relevance in environmental and industrial applications, as well as biomedicine. The authors emphasize the importance of further exploration for optimizing SAC designs for better catalytic processes.
"Recent advances in single-atom catalysis have demonstrated remarkable efficiency due to the unique properties of isolated metal atoms, paving the way for sustainable catalytic applications."
"Single-atom catalysts, by virtue of their highly dispersed metal active sites, exhibit enhanced activity and selectivity compared to traditional bulk catalysts, making them a focal point in modern catalysis research."
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