Nuria J Divins
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Explore the profile of Nuria J Divins including associated specialties, affiliations and a list of published articles.
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14
Citations
179
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Recent Articles
1.
Braga A, Armengol-Profitos M, Pascua-Sole L, Vendrell X, Soler L, Serrano I, et al.
ACS Appl Nano Mater
. 2023 May;
6(9):7173-7185.
PMID: 37205295
Ni-Fe nanocatalysts supported on CeO have been prepared for the catalysis of methane steam reforming (MSR) aiming for coke-resistant noble metal-free catalysts. The catalysts have been synthesized by traditional incipient...
2.
Kordus D, Jelic J, Lopez Luna M, Divins N, Timoshenko J, Chee S, et al.
J Am Chem Soc
. 2023 Jan;
145(5):3016-3030.
PMID: 36716273
The hydrogenation of CO to methanol over Cu/ZnO-based catalysts is highly sensitive to the surface composition and catalyst structure. Thus, its optimization requires a deep understanding of the influence of...
3.
Divins N, Braga A, Vendrell X, Serrano I, Garcia X, Soler L, et al.
Nat Commun
. 2022 Aug;
13(1):5080.
PMID: 36038555
Efficiently treating methane emissions in transportation remains a challenge. Here, we investigate palladium and platinum mono- and bimetallic ceria-supported catalysts synthesized by mechanical milling and by traditional impregnation for methane...
4.
Mussio A, Danielis M, Divins N, Llorca J, Colussi S, Trovarelli A
ACS Appl Mater Interfaces
. 2021 Jun;
13(27):31614-31623.
PMID: 34077185
Bimetallic Pt-Pd catalysts supported on ceria have been prepared by mechanochemical synthesis and tested for lean methane oxidation in dry and wet atmosphere. Results show that the addition of platinum...
5.
Divins N, Kordus D, Timoshenko J, Sinev I, Zegkinoglou I, Bergmann A, et al.
Nat Commun
. 2021 Mar;
12(1):1435.
PMID: 33664267
Although Cu/ZnO-based catalysts have been long used for the hydrogenation of CO to methanol, open questions still remain regarding the role and the dynamic nature of the active sites formed...
6.
Gao D, Sinev I, Scholten F, Aran-Ais R, Divins N, Kvashnina K, et al.
Angew Chem Int Ed Engl
. 2019 Sep;
58(47):17047-17053.
PMID: 31476272
Production of multicarbon products (C ) from CO electroreduction reaction (CO RR) is highly desirable for storing renewable energy and reducing carbon emission. The electrochemical synthesis of CO RR catalysts...
7.
Zegkinoglou I, Pielsticker L, Han Z, Divins N, Kordus D, Chen Y, et al.
J Phys Chem C Nanomater Interfaces
. 2019 Apr;
123(13):8421-8428.
PMID: 30976377
Surface segregation and restructuring in size-selected CuNi nanoparticles were investigated via near-ambient pressure X-ray photoelectron spectroscopy (NAP-XPS) at various temperatures in different gas environments. Particularly in focus were structural and...
8.
Jeon H, Sinev I, Scholten F, Divins N, Zegkinoglou I, Pielsticker L, et al.
J Am Chem Soc
. 2018 Jul;
140(30):9383-9386.
PMID: 30008209
We explored the size-dependent activity and selectivity of Zn nanoparticles (NPs) for the electrochemical CO reduction reaction (CORR). Zn NPs ranging from 3 to 5 nm showed high activity and...
9.
Pielsticker L, Zegkinoglou I, Divins N, Mistry H, Chen Y, Kostka A, et al.
J Phys Chem B
. 2017 Oct;
122(2):919-926.
PMID: 29068680
Surface segregation, restructuring, and sintering phenomena in size-selected copper-nickel nanoparticles (NPs) supported on silicon dioxide substrates were systematically investigated as a function of temperature, chemical state, and reactive gas environment....
10.
Mistry H, Choi Y, Bagger A, Scholten F, Bonifacio C, Sinev I, et al.
Angew Chem Int Ed Engl
. 2017 Jul;
56(38):11394-11398.
PMID: 28710839
Efficient, stable catalysts with high selectivity for a single product are essential if electroreduction of CO is to become a viable route to the synthesis of industrial feedstocks and fuels....