Thomas J A Slater
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Explore the profile of Thomas J A Slater including associated specialties, affiliations and a list of published articles.
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31
Citations
112
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Recent Articles
1.
Marcotti S, Jones M, Slater T, Barry D
Microsc Res Tech
. 2024 Dec;
PMID: 39690701
Modern microscopy systems allow researchers to generate large volumes of image data with relative ease. However, the challenge of analyzing these data effectively is often hindered by a lack of...
2.
Oberhauser W, Evangelisti C, Nguyen X, Filippi J, Poggini L, Capozzoli L, et al.
Inorg Chem
. 2024 Nov;
63(48):22912-22922.
PMID: 39556095
Pt nanoparticles (diameter <3 nm), generated by metal vapor synthesis and supported on a high surface area carbon, were used to catalyze the aerobic oxidation of ethylene glycol to glycolic...
3.
da Silva K, Shetty S, Sullivan Allsop S, Cai R, Wang S, Quiroz J, et al.
ACS Nano
. 2024 Aug;
18(35):24391-24403.
PMID: 39164202
Plasmonic catalysis has been employed to enhance molecular transformations under visible light excitation, leveraging the localized surface plasmon resonance (LSPR) in plasmonic nanoparticles. While plasmonic catalysis has been employed for...
4.
Dearg M, Lethbridge S, McCormack J, Palmer R, Slater T
Nanoscale
. 2024 May;
16(22):10827-10832.
PMID: 38768221
In this study, aberration-corrected scanning transmission electron microscopy is employed to investigate the morphology of Au clusters formed from the aggregation of single atoms sputtered onto an amorphous carbon surface....
5.
Bezerra L, Brasseur P, Sullivan-Allsop S, Cai R, da Silva K, Wang S, et al.
Angew Chem Int Ed Engl
. 2024 May;
63(29):e202405459.
PMID: 38711309
The hydrogen evolution and nitrite reduction reactions are key to producing green hydrogen and ammonia. Antenna-reactor nanoparticles hold promise to improve the performances of these transformations under visible-light excitation, by...
6.
Wang Y, Slater T, Leteba G, Lang C, Wang Z, Haigh S
Small
. 2023 Oct;
20(10):e2302426.
PMID: 37907412
Tailoring nanoparticles' composition and morphology is of particular interest for improving their performance for catalysis. A challenge of this approach is that the nanoparticles' optimized initial structure often changes during...
7.
Dearg M, Roncaglia C, Nelli D, El Koraychy E, Ferrando R, Slater T, et al.
Nanoscale Horiz
. 2023 Oct;
9(1):143-147.
PMID: 37877366
The multi-dimensional potential energy surface (PES) of a nanoparticle, such as a bare cluster of metal atoms, controls both the structure and dynamic behaviour of the particle. These properties are...
8.
Sivagurunathan S, Marcotti S, Nelson C, Jones M, Barry D, Slater T, et al.
J Microsc
. 2023 Sep;
296(3):199-213.
PMID: 37727897
The 'Bridging Imaging Users to Imaging Analysis' survey was conducted in 2022 by the Center for Open Bioimage Analysis (COBA), BioImaging North America (BINA) and the Royal Microscopical Society Data...
9.
Popov I, Ghaderzadeh S, Kohlrausch E, Norman L, Slater T, Aliev G, et al.
Nano Lett
. 2023 Aug;
23(17):8006-8012.
PMID: 37594260
The production of atomically dispersed metal catalysts remains a significant challenge in the field of heterogeneous catalysis due to coexistence with continuously packed sites such as nanoclusters and nanoparticles. This...
10.
Sivagurunathan S, Marcotti S, Nelson C, Jones M, Barry D, Slater T, et al.
bioRxiv
. 2023 Jun;
PMID: 37333353
The "Bridging Imaging Users to Imaging Analysis" survey was conducted in 2022 by the Center for Open Bioimage Analysis (COBA), Bioimaging North America (BINA), and the Royal Microscopical Society Data...