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Reversible size control of silver nanoclusters via ligand-exchange

Abstract:
The properties of atomically monodisperse noble metal nanoclusters (NCs) are intricately intertwined with their precise molecular formula. The vast majority of size-specific NC syntheses start from the reduction of the metal salt and thiol ligand mixture. Only in gold was it recently shown that ligand-exchange could induce the growth of NCs from one atomically precise species to another, a process of yet unknown reversibility. Here, we present a process for the ligand-exchange-induced growth of atomically precise silver NCs, in a biphasic liquid-liquid system, which is particularly of interest because of its complete reversibility and ability to occur at room temperature. We explore this phenomenon in-depth using Ag35(SG)18 [SG = glutathionate] and Ag44(4-FTP)30 [4-FTP = 4-fluorothiophenol] as model systems. We show that the ligand-exchange conversion of Ag35(SG)18 into Ag44(4-FTP)30 is rapid (<5 min) and direct, while the reverse process proceeds slowly through intermediate cluster sizes. We adapt a recently developed theory of reverse Ostwald ripening to model the NCs' interconvertibility. The model's predictions are in good agreement with the experimental observations, and they highlight the importance of small changes in the ligand-metal binding energy in determining the final equilibrium NC size. On the basis of the insight provided by this model, we demonstrated experimentally that by varying the choice of ligands, ligand-exchange can be used to obtain different sized NCs. The findings in this work establish ligand-exchange as a versatile tool for tuning cluster sizes.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1021/acs.chemmater.5b00650

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Institution:
University of Oxford
Division:
MPLS
Department:
Materials
Role:
Author


Publisher:
American Chemical Society
Journal:
Chemistry of Materials More from this journal
Volume:
27
Issue:
12
Pages:
4289-4297
Publication date:
2015-05-21
DOI:
EISSN:
1520-5002
ISSN:
0897-4756


Keywords:
Pubs id:
pubs:533302
UUID:
uuid:0c0d12ec-940e-481d-8780-2e50eeffaf7a
Local pid:
pubs:533302
Source identifiers:
533302
Deposit date:
2017-01-07
ARK identifier:

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