<b>Atomically Precise Metal Clusters</b> <p> <b>Thorough discussion on how surface modification and self-assembly play roles in the atomically precise formation and property tailoring of molecular clusters</b> <p><i>Atomically Precise Metal Clusters: Surface Engineering and Hierarchical Assembly </i>summarizes and discusses the surface modification, assembly, and property tailoring of a wide variety of nanoclusters, including the well-explored metal clusters, addressing the structure–property relationships throughout. The atomic-level control in synthesis, new types of structures, and physical/chemical properties of nanoclusters are illustrated in various chapters. <p>The controlled modification and assembly of metal nanoclusters is expected to have a major impact on future nanoscience research and other areas, with distinctive metal cluster-based function materials with precise structures uncovering exciting opportunities in both fundamental research and practical applications. <p>Written by a highly qualified academic with significant research experience in the field, <i>Atomically Precise Metal Clusters </i>includes information on: <ul><li>Ligand engineering and assembly of coinage metal nanoclusters such as gold, silver, and copper</li><li>Recent advances in post-modification of polyoxometalates and small transition metal chalcogenide superatom clusters</li><li>Synthesis and assembly of cadmium chalcogenide supertetrahedral clusters and modification and assembly of Fe-S clusters</li><li>Indium phosphide magic-sized clusters, ligand-tailoring platinum and palladium clusters, and metal oxo clusters (MOCs)</li><li>Enabling access to desired functions in metal clusters for catalysis, optics, biomedicine, and other fields through surface engineering and supramolecular assembly</li></ul> <p>A timely and comprehensive book that summarizes the recent progress in the surface modification and self-assembly of metal nanoclusters, <i>Atomically Precise Metal Clusters </i>provides essential guidance for graduate students and advanced researchers in material science, chemistry, biomedicine, and other disciplines.