Nicolas Gauriot
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Explore the profile of Nicolas Gauriot including associated specialties, affiliations and a list of published articles.
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12
Citations
48
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Recent Articles
1.
Gauriot N, Pandya R, Alexander-Webber J, Rao A
J Phys Condens Matter
. 2024 Sep;
37(3).
PMID: 39348871
Atomically thin group IV monochalcogenides or phosphorene analogues are a promising family of materials. Theoretical calculations predict that monolayers (MLs) should be semiconducting, ferroelectric and ferroelastic at room temperature, exhibit...
2.
Lim J, Lee J, Wang Y, Gauriot N, Sebastian E, Chhowalla M, et al.
Nature
. 2024 Aug;
633(8028):83-89.
PMID: 39198653
Crystallographic phase engineering plays an important part in the precise control of the physical and electronic properties of materials. In two-dimensional transition metal dichalcogenides (2D TMDs), phase engineering using chemical...
3.
Mesa C, Sachs M, Pastor E, Gauriot N, Merryweather A, Gomez-Gonzalez M, et al.
Nat Commun
. 2024 May;
15(1):3908.
PMID: 38724495
Photo(electro)catalysts use sunlight to drive chemical reactions such as water splitting. A major factor limiting photocatalyst development is physicochemical heterogeneity which leads to spatially dependent reactivity. To link structure and...
4.
Gauriot N, Ashoka A, Lim J, See S, Sung J, Rao A
ACS Nano
. 2024 Jan;
18(1):264-271.
PMID: 38196169
In atomically thin transition-metal dichalcogenides (TMDCs), the environmental sensitivity of the strong Coulomb interaction offers promising approaches to create spatially varying potential landscapes in the same continuous material by tuning...
5.
Zhu Y, Lim J, Zhang Z, Wang Y, Sarkar S, Ramsden H, et al.
ACS Nano
. 2023 Jul;
17(14):13545-13553.
PMID: 37418552
Atomic defects in monolayer transition metal dichalcogenides (TMDs) such as chalcogen vacancies significantly affect their properties. In this work, we provide a reproducible and facile strategy to rationally induce chalcogen...
6.
Ashoka A, Gauriot N, Girija A, Sawhney N, Sneyd A, Watanabe K, et al.
Nat Commun
. 2022 Oct;
13(1):5963.
PMID: 36216826
We present quantitative ultrafast interferometric pump-probe microscopy capable of tracking of photoexcitations with sub-10 nm spatial precision in three dimensions with 15 fs temporal resolution, through retrieval of the full...
7.
Xiao J, Liu Y, Steinmetz V, Caglar M, Mc Hugh J, Baikie T, et al.
ACS Nano
. 2021 Jan;
15(2):3540.
PMID: 33512988
No abstract available.
8.
Tanoh A, Gauriot N, Delport G, Xiao J, Pandya R, Sung J, et al.
ACS Nano
. 2020 Oct;
14(11):15374-15384.
PMID: 33078943
Heterostructures of two-dimensional (2D) transition metal dichalcogenides (TMDs) and inorganic semiconducting zero-dimensional (0D) quantum dots (QDs) offer useful charge and energy transfer pathways, which could form the basis of future...
9.
Xiao J, Liu Y, Steinmetz V, Calar M, Mc Hugh J, Baikie T, et al.
ACS Nano
. 2020 Oct;
14(11):14740-14760.
PMID: 33044058
Luminescent colloidal CdSe nanorings are a recently developed type of semiconductor structure that have attracted interest due to the potential for rich physics arising from their nontrivial toroidal shape. However,...
10.
Long-range corrected exchange-correlation kernels to describe excitons in second-harmonic generation
Gauriot N, Veniard V, Luppi E
J Chem Phys
. 2019 Dec;
151(23):234111.
PMID: 31864278
We investigate the role of excitons in second-harmonic generation (SHG) through the long-range corrected (LRC) exchange-correlation kernels: empirical LRC, Bootstrap, and jellium-with-a-gap model. We calculate the macroscopic second-order frequency-dependent susceptibility...