Retarding oxidation of copper nanoparticles without electrical isolation and the size dependence of work function
Retarding oxidation of copper nanoparticles without electrical isolation and the size dependence of work function
Copper nanoparticles (CuNPs) are attractive as a low-cost alternative to their gold and silver analogues for numerous applications, although their potential has hardly been explored due to their higher susceptibility to oxidation in air. Here we show the unexpected findings of an investigation into the correlation between the air-stability of CuNPs and the structure of the thiolate capping ligand; of the eight different ligands screened, those with the shortest alkyl chain, –(CH2)2–, and a hydrophilic carboxylic acid end group are found to be the most effective at retarding oxidation in air. We also show that CuNPs are not etched by thiol solutions as previously reported, and address the important fundamental question of how the work function of small supported metal particles scales with particle size. Together these findings set the stage for greater utility of CuNPs for emerging electronic applications.
Dabera, G. Dinesha M.R.
272a0dfe-e64e-4077-9487-4137cb259c9d
Walker, Marc
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Sanchez, Ana M.
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Pereira, H. Jessica
99b16ebd-fa9f-41f0-a4fe-f0c0e22f6697
Beanland, Richard
562e4354-94d4-454a-8d45-14e85ececb10
Hatton, Ross A.
5685b96c-8de1-4afb-bb97-ccd69ccaf00e
Dabera, G. Dinesha M.R.
272a0dfe-e64e-4077-9487-4137cb259c9d
Walker, Marc
47001283-be54-46a8-91ce-16fff6a064e4
Sanchez, Ana M.
8297b889-35f4-43c2-9474-59efa65b2e47
Pereira, H. Jessica
99b16ebd-fa9f-41f0-a4fe-f0c0e22f6697
Beanland, Richard
562e4354-94d4-454a-8d45-14e85ececb10
Hatton, Ross A.
5685b96c-8de1-4afb-bb97-ccd69ccaf00e
Dabera, G. Dinesha M.R., Walker, Marc, Sanchez, Ana M., Pereira, H. Jessica, Beanland, Richard and Hatton, Ross A.
(2017)
Retarding oxidation of copper nanoparticles without electrical isolation and the size dependence of work function.
Nature Communications, [1894].
(doi:10.1038/s41467-017-01735-6).
Abstract
Copper nanoparticles (CuNPs) are attractive as a low-cost alternative to their gold and silver analogues for numerous applications, although their potential has hardly been explored due to their higher susceptibility to oxidation in air. Here we show the unexpected findings of an investigation into the correlation between the air-stability of CuNPs and the structure of the thiolate capping ligand; of the eight different ligands screened, those with the shortest alkyl chain, –(CH2)2–, and a hydrophilic carboxylic acid end group are found to be the most effective at retarding oxidation in air. We also show that CuNPs are not etched by thiol solutions as previously reported, and address the important fundamental question of how the work function of small supported metal particles scales with particle size. Together these findings set the stage for greater utility of CuNPs for emerging electronic applications.
Text
s41467-017-01735-6
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Accepted/In Press date: 12 October 2017
e-pub ahead of print date: 1 December 2017
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Local EPrints ID: 483218
URI: http://eprints.soton.ac.uk/id/eprint/483218
ISSN: 2041-1723
PURE UUID: 2c5602f4-ad38-4b09-bf4c-54fabba69b81
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Date deposited: 26 Oct 2023 16:44
Last modified: 18 Mar 2024 04:14
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Author:
G. Dinesha M.R. Dabera
Author:
Marc Walker
Author:
Ana M. Sanchez
Author:
H. Jessica Pereira
Author:
Richard Beanland
Author:
Ross A. Hatton
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