Atomically Precise Metal Nanoclusters: Novel Building Blocks for Hierarchical Structures

Atomically precise ligand‐protected nanoclusters (NCs) constitute an important class of compounds that exhibit well‐defined structures and, when sufficiently small, evident molecular properties. NCs provide versatile building blocks to fabricate hierarchical superstructures. The assembly of NCs inde...

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Veröffentlicht in:	Chemistry : a European journal 2021-01, Vol.27 (1), p.30-38
Hauptverfasser:	Bonacchi, Sara, Antonello, Sabrina, Dainese, Tiziano, Maran, Flavio
Format:	Artikel
Sprache:	eng
Schlagworte:	atomically precise nanoclusters Chemistry Dimers hierarchical structures ligand exchange Ligands metal doping Molecular properties Nanoclusters Physicochemical properties self-assembly Structural hierarchy Superstructures
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creator	Bonacchi, Sara Antonello, Sabrina Dainese, Tiziano Maran, Flavio
description	Atomically precise ligand‐protected nanoclusters (NCs) constitute an important class of compounds that exhibit well‐defined structures and, when sufficiently small, evident molecular properties. NCs provide versatile building blocks to fabricate hierarchical superstructures. The assembly of NCs indeed offers opportunities to devise new materials with given structures and able to carry out specific functions. In this Concept article, we highlight the possibilities offered by NCs in which the physicochemical properties are controlled by the introduction of foreign metal atoms and/or modification of the composition of the capping monolayer with functional ligands. Different approaches to assemble NCs into dimers and higher hierarchy structures and the corresponding changes in physicochemical properties are also described. Metal nanocluster‐based structures: Ultrasmall ligand‐protected nanoclusters (NCs) can be prepared with atomic precision and exhibit well‐defined structures and properties, and therefore, provide versatile building blocks to fabricate hierarchical superstructures. Here, some of the possibilities offered by NCs suitably tailored to self‐assemble are highlighted, and changes observed in the physicochemical properties of the ensuing systems are described.
doi_str_mv	10.1002/chem.202003155
format	Article
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subjects	atomically precise nanoclusters Chemistry Dimers hierarchical structures ligand exchange Ligands metal doping Molecular properties Nanoclusters Physicochemical properties self-assembly Structural hierarchy Superstructures
title	Atomically Precise Metal Nanoclusters: Novel Building Blocks for Hierarchical Structures
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