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Single‐Atom Nano‐Islands (SANIs): A Robust Atomic–Nano System for Versatile Heterogeneous Catalysis Applications

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Academician Tao Zhang from China and co‐workers designed the first Pt1/FeOx single‐atom catalysts (SACs) in 2011, and they proposed the concept of “single‐atom catalysis” in the field of heterogeneous catalysis.… Click to show full abstract

Academician Tao Zhang from China and co‐workers designed the first Pt1/FeOx single‐atom catalysts (SACs) in 2011, and they proposed the concept of “single‐atom catalysis” in the field of heterogeneous catalysis. Generally, it is easy for active metal single‐atom sites on a carrier to migrate and aggregate, which results in poor performance; or the chemical bond between the metal atom and carrier is too strong (immovable), which results in passivation of the active site. Recently, “nano‐island” type SACs were designed, in which the active metal atoms are isolated on the “islands”, and can move within the respective “island”, but the migration across the “island” is blocked, to achieve a dynamic confinement design of single atoms (that is, a “moving but not aggregating” design philosophy). Herein, a new concept of “single‐atom nano‐islands (SANIs)” is proposed to describe these congeneric “atomic–nano” systems in heterogeneous catalysis fields. Particularly, the SANIs are divided into three categories: “one‐island–one‐atom”, “one‐island–multi‐atoms”, and “island–sea synergism” architectures. The scientific significance and application principles of SANIs in versatile heterogeneous catalysis fields (i.e., thermocatalysis, electrocatalysis, and photocatalysis) are summarized. The challenges and proposals of SANIs are also provided.

Keywords: single atom; island; nano; heterogeneous catalysis

Journal Title: Advanced Materials
Year Published: 2023

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