Disc‐Like Silver Nanocluster Ag93 Built with Bicapped Hexagonal Prismatic Ag15 and Ino Decahedral Ag13 Units

The reduction of alkynyl‐silver and phosphine‐silver precursors with a weak reducing reagent Ph2SiH2 led to the formation of a novel silver nanocluster [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4), which is the largest structurally characterized cluster of clusters. This disc‐shaped cluster has a Ag69 ker...

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Published in	Angewandte Chemie International Edition Vol. 62; no. 29; pp. e202304134 - n/a
Main Authors	Hu, Feng, He, Rui‐Lin, Guan, Zong‐Jie, Liu, Chun‐Yu, Wang, Quan‐Ming
Format	Journal Article
Language	English
Published	Weinheim Wiley Subscription Services, Inc 17.07.2023
Edition	International ed. in English
Subjects	Alkynyl Ligands Chemical reduction Chromium Coordination Number Coordination numbers Metal clusters Metals Nanoclusters Optical Properties Phosphine Phosphines Reagents Silver Silver Nanocluster
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Abstract	The reduction of alkynyl‐silver and phosphine‐silver precursors with a weak reducing reagent Ph2SiH2 led to the formation of a novel silver nanocluster [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4), which is the largest structurally characterized cluster of clusters. This disc‐shaped cluster has a Ag69 kernel consisting of a bicapped hexagonal prismatic Ag15 unit wrapped by six Ino decahedra through edge‐sharing. This is the first time that Ino decahedra are used as a building block to assemble a cluster of clusters. Moreover, the central silver atom has a coordination number of 14, which is the highest in metal nanoclusters. This work provides a diverse metal packing pattern in metal nanoclusters, which is helpful for understanding metal cluster assembling mechanisms. The largest structurally characterized cluster of clusters [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4) is prepared. It is a disc‐shaped structure, its Ag69 kernel consists of a bicapped hexagonal prismatic Ag15 wrapped by six Ino decahedral Ag13 units through edge‐sharing. The central silver atom has an unprecedented high coordination number of 14. This is the first time that Ino decahedra act as building blocks to assemble a supercluster.
AbstractList	The reduction of alkynyl‐silver and phosphine‐silver precursors with a weak reducing reagent Ph2SiH2 led to the formation of a novel silver nanocluster [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4), which is the largest structurally characterized cluster of clusters. This disc‐shaped cluster has a Ag69 kernel consisting of a bicapped hexagonal prismatic Ag15 unit wrapped by six Ino decahedra through edge‐sharing. This is the first time that Ino decahedra are used as a building block to assemble a cluster of clusters. Moreover, the central silver atom has a coordination number of 14, which is the highest in metal nanoclusters. This work provides a diverse metal packing pattern in metal nanoclusters, which is helpful for understanding metal cluster assembling mechanisms. The largest structurally characterized cluster of clusters [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4) is prepared. It is a disc‐shaped structure, its Ag69 kernel consists of a bicapped hexagonal prismatic Ag15 wrapped by six Ino decahedral Ag13 units through edge‐sharing. The central silver atom has an unprecedented high coordination number of 14. This is the first time that Ino decahedra act as building blocks to assemble a supercluster. The reduction of alkynyl‐silver and phosphine‐silver precursors with a weak reducing reagent Ph2SiH2 led to the formation of a novel silver nanocluster [Ag93(PPh3)6(C≡CR)50]3+ (R=4‐CH3OC6H4), which is the largest structurally characterized cluster of clusters. This disc‐shaped cluster has a Ag69 kernel consisting of a bicapped hexagonal prismatic Ag15 unit wrapped by six Ino decahedra through edge‐sharing. This is the first time that Ino decahedra are used as a building block to assemble a cluster of clusters. Moreover, the central silver atom has a coordination number of 14, which is the highest in metal nanoclusters. This work provides a diverse metal packing pattern in metal nanoclusters, which is helpful for understanding metal cluster assembling mechanisms. The reduction of alkynyl-silver and phosphine-silver precursors with a weak reducing reagent Ph2 SiH2 led to the formation of a novel silver nanocluster [Ag93 (PPh3 )6 (C≡CR)50 ]3+ (R=4-CH3 OC6 H4 ), which is the largest structurally characterized cluster of clusters. This disc-shaped cluster has a Ag69 kernel consisting of a bicapped hexagonal prismatic Ag15 unit wrapped by six Ino decahedra through edge-sharing. This is the first time that Ino decahedra are used as a building block to assemble a cluster of clusters. Moreover, the central silver atom has a coordination number of 14, which is the highest in metal nanoclusters. This work provides a diverse metal packing pattern in metal nanoclusters, which is helpful for understanding metal cluster assembling mechanisms.The reduction of alkynyl-silver and phosphine-silver precursors with a weak reducing reagent Ph2 SiH2 led to the formation of a novel silver nanocluster [Ag93 (PPh3 )6 (C≡CR)50 ]3+ (R=4-CH3 OC6 H4 ), which is the largest structurally characterized cluster of clusters. This disc-shaped cluster has a Ag69 kernel consisting of a bicapped hexagonal prismatic Ag15 unit wrapped by six Ino decahedra through edge-sharing. This is the first time that Ino decahedra are used as a building block to assemble a cluster of clusters. Moreover, the central silver atom has a coordination number of 14, which is the highest in metal nanoclusters. This work provides a diverse metal packing pattern in metal nanoclusters, which is helpful for understanding metal cluster assembling mechanisms.
Author	He, Rui‐Lin Liu, Chun‐Yu Guan, Zong‐Jie Wang, Quan‐Ming Hu, Feng
Author_xml	– sequence: 1 givenname: Feng surname: Hu fullname: Hu, Feng organization: Tsinghua University – sequence: 2 givenname: Rui‐Lin surname: He fullname: He, Rui‐Lin organization: Tsinghua University – sequence: 3 givenname: Zong‐Jie surname: Guan fullname: Guan, Zong‐Jie organization: Tsinghua University – sequence: 4 givenname: Chun‐Yu surname: Liu fullname: Liu, Chun‐Yu organization: Tsinghua University – sequence: 5 givenname: Quan‐Ming orcidid: 0000-0002-3764-6409 surname: Wang fullname: Wang, Quan‐Ming email: qmwang@tsinghua.edu.cn organization: Tsinghua University
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Snippet	The reduction of alkynyl‐silver and phosphine‐silver precursors with a weak reducing reagent Ph2SiH2 led to the formation of a novel silver nanocluster... The reduction of alkynyl-silver and phosphine-silver precursors with a weak reducing reagent Ph2 SiH2 led to the formation of a novel silver nanocluster [Ag93...
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SubjectTerms	Alkynyl Ligands Chemical reduction Chromium Coordination Number Coordination numbers Metal clusters Metals Nanoclusters Optical Properties Phosphine Phosphines Reagents Silver Silver Nanocluster
Title	Disc‐Like Silver Nanocluster Ag93 Built with Bicapped Hexagonal Prismatic Ag15 and Ino Decahedral Ag13 Units
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