Synthesis and Properties Evolution of a Family of Tiara-like Phenylethanethiolated Palladium Nanoclusters

Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties ( e.g. the absorption) evolution with the ring size’s increase was not...

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Published in	Scientific reports Vol. 5; no. 1; p. 16628
Main Authors	Chen, Jishi, Liu, Liren, Weng, Linhong, Lin, Yuejian, Liao, Lingwen, Wang, Chengming, Yang, Jinlong, Wu, Zhikun
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 16.11.2015 Nature Publishing Group
Subjects	119/118 140/146 639/638/263/914 639/925/357/354 Crystallography Electrochemistry Evolution Humanities and Social Sciences Laboratories Ligands Materials science multidisciplinary Palladium Physics Science Single crystals Sulfur X-ray crystallography
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Abstract	Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties ( e.g. the absorption) evolution with the ring size’s increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC 2 H 4 Ph) 2 ] n nanoclusters (totally 17 novel clusters, n = 4–20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution—polycondensation—ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated and it is found that both optical and electrochemical gaps have a “turning point” at a size corresponding to n = 8 for [Pd(SR) 2 ] n nanoclusters.
AbstractList	Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties ( e.g. the absorption) evolution with the ring size’s increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC 2 H 4 Ph) 2 ] n nanoclusters (totally 17 novel clusters, n = 4–20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution—polycondensation—ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated and it is found that both optical and electrochemical gaps have a “turning point” at a size corresponding to n = 8 for [Pd(SR) 2 ] n nanoclusters. Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties (e.g. the absorption) evolution with the ring size's increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC2H4Ph)2]n nanoclusters (totally 17 novel clusters, n = 4-20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution-polycondensation-ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated, and it is found that both optical and electrochemical gaps have a "turning point" at a size corresponding to n = 8 for [Pd(SR)2]n nanoclusters. Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties (e.g. the absorption) evolution with the ring size's increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC2 H4 Ph)2 ]n nanoclusters (totally 17 novel clusters, n = 4-20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution--polycondensation--ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated, and it is found that both optical and electrochemical gaps have a "turning point" at a size corresponding to n = 8 for [Pd(SR)2 ]n nanoclusters. Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties (e.g. the absorption) evolution with the ring size's increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC2H4Ph)2]n nanoclusters (totally 17 novel clusters, n = 4-20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution-polycondensation-ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated, and it is found that both optical and electrochemical gaps have a "turning point" at a size corresponding to n = 8 for [Pd(SR)2]n nanoclusters.Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and potential application in a number of fields. However, the properties (e.g. the absorption) evolution with the ring size's increase was not investigated so far to our best knowledge, due to the challenge of obtaining a series of nanocluster analogues. Herein, we successfully synthesized, isolated and identified a family of [Pd(SC2H4Ph)2]n nanoclusters (totally 17 novel clusters, n = 4-20). Their structures were determined to be tiara-like by single crystal X-ray crystallography together with theoretical calculation; their formation mechanism was proposed to be a substitution-polycondensation-ring-closure process based on experimental observations. All of these clusters are rather robust (anti-reductive and anti-oxidative) owing to their tiara-like structures with large HOMO-LUMO gaps. Finally, the optical and electrochemical evolution with the increase of ring size was investigated, and it is found that both optical and electrochemical gaps have a "turning point" at a size corresponding to n = 8 for [Pd(SR)2]n nanoclusters.
ArticleNumber	16628
Author	Chen, Jishi Liu, Liren Lin, Yuejian Yang, Jinlong Weng, Linhong Liao, Lingwen Wang, Chengming Wu, Zhikun
Author_xml	– sequence: 1 givenname: Jishi surname: Chen fullname: Chen, Jishi organization: Key Laboratory of Materials Physics, Anhui Key Laboratory of Nanomaterials and Nanotechnology, Institute of Solid State Physics, Chinese Academy of Sciences, Department of Materials Science and Engineering, University of Science and Technology of China – sequence: 2 givenname: Liren surname: Liu fullname: Liu, Liren organization: Hefei National Laboratory for Physics Sciences at the Microscale, University of Science and Technology of China – sequence: 3 givenname: Linhong surname: Weng fullname: Weng, Linhong organization: Department of Chemistry, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Fudan University – sequence: 4 givenname: Yuejian surname: Lin fullname: Lin, Yuejian organization: Department of Chemistry, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Fudan University – sequence: 5 givenname: Lingwen surname: Liao fullname: Liao, Lingwen organization: Key Laboratory of Materials Physics, Anhui Key Laboratory of Nanomaterials and Nanotechnology, Institute of Solid State Physics, Chinese Academy of Sciences – sequence: 6 givenname: Chengming surname: Wang fullname: Wang, Chengming organization: Hefei National Laboratory for Physics Sciences at the Microscale, University of Science and Technology of China – sequence: 7 givenname: Jinlong surname: Yang fullname: Yang, Jinlong organization: Hefei National Laboratory for Physics Sciences at the Microscale, University of Science and Technology of China – sequence: 8 givenname: Zhikun surname: Wu fullname: Wu, Zhikun organization: Key Laboratory of Materials Physics, Anhui Key Laboratory of Nanomaterials and Nanotechnology, Institute of Solid State Physics, Chinese Academy of Sciences
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Snippet	Tiara-like thiolated group 10 transition metal (Ni, Pd, Pt) nanoclusters have attracted extensive interest due to their fundamental scientific significance and...
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SubjectTerms	119/118 140/146 639/638/263/914 639/925/357/354 Crystallography Electrochemistry Evolution Humanities and Social Sciences Laboratories Ligands Materials science multidisciplinary Palladium Physics Science Single crystals Sulfur X-ray crystallography
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Title	Synthesis and Properties Evolution of a Family of Tiara-like Phenylethanethiolated Palladium Nanoclusters
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