Marcelo A Kuroda
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Explore the profile of Marcelo A Kuroda including associated specialties, affiliations and a list of published articles.
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Articles
15
Citations
113
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Recent Articles
1.
Das S, Zheng Y, Ahyi A, Kuroda M, Dhar S
Materials (Basel)
. 2022 Oct;
15(19).
PMID: 36234077
The channel conduction in 4H-SiC metal-oxide-semiconductor field effect transistors (MOSFETs) are highly impacted by charge trapping and scattering at the interface. Even though nitridation reduces the interface trap density, scattering...
2.
Luan B, Elmegreen B, Kuroda M, Gu Z, Lin G, Zeng S
ACS Nano
. 2022 Mar;
16(4):6274-6281.
PMID: 35324145
With growing concerns about global warming, it has become urgent and critical to capture carbon from various emission sources (such as power plants) and even directly from air. Recent advances...
3.
Fathi-Hafshejani P, Azam N, Wang L, Kuroda M, Hamilton M, Hasim S, et al.
ACS Nano
. 2021 Jun;
15(7):11461-11469.
PMID: 34181385
The emergence of rapidly expanding infectious diseases such as coronavirus (COVID-19) demands effective biosensors that can promptly detect and recognize the pathogens. Field-effect transistors based on semiconducting two-dimensional (2D) materials...
4.
Blanchet M, Heath J, Kaspar T, Matthews B, Spurgeon S, Bowden M, et al.
J Phys Condens Matter
. 2021 Jan;
33(12):124002.
PMID: 33438585
Recent investigations on spinel CoMnO have shown its potential for applications in water splitting and fuel cell technologies as it exhibits strong catalytic behavior through oxygen reduction reactivity. To further...
5.
Blanchet M, Heath J, Kaspar T, Matthews B, Spurgeon S, Bowden M, et al.
J Phys Condens Matter
. 2020 Dec;
PMID: 33348322
Recent investigations on spinel CoMnOhave shown its potential for applications in water splitting and fuel cell technologies as it exhibits strong catalytic behavior through oxygen reduction reactivity. To further understand...
6.
Luan B, Kuroda M
ACS Nano
. 2020 Sep;
14(10):13137-13145.
PMID: 32902252
Recent advances in nanotechnology have facilitated fabrication of various solid state nanopores as a versatile alternative to biological nanopores; however, effective transport of a single-stranded DNA (ssDNA) molecule through solid...
7.
Heath J, Kuroda M
Phys Chem Chem Phys
. 2018 Oct;
20(40):25822-25828.
PMID: 30283971
We characterize the structure-property relationship of alkali metal elements in oxygen-passivated graphene pores using the density functional theory that accounts for quantum mechanical effects and charge transfer. Our description is...
8.
Lenz Baldez R, Piquini P, Schmidt A, Kuroda M
Phys Chem Chem Phys
. 2017 Aug;
19(33):22153-22160.
PMID: 28795732
We describe the interaction between small transition metal clusters and graphene using first principles calculations. The coupling is analyzed in terms of different features of the system: binding energy, decomposition...
9.
Maarouf A, Nistor R, Afzali-Ardakani A, Kuroda M, Newns D, Martyna G
J Chem Theory Comput
. 2015 Nov;
9(5):2398-403.
PMID: 26583730
Graphene nanomeshes (GNMs) formed by the creation of pore superlattices in graphene are a possible route to graphene-based electronics due to their semiconducting properties, including the emergence of fractional electronvolt...
10.
Kuroda M, Tersoff J, Newns D, Martyna G
Nano Lett
. 2011 Aug;
11(9):3629-33.
PMID: 21834553
The ballistic conductance through junctions between multilayer graphene films and several different metals is studied using ab initio calculations within the local density approximation. The system consists of films of...