Steven G Louie
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Explore the profile of Steven G Louie including associated specialties, affiliations and a list of published articles.
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193
Citations
4068
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Recent Articles
1.
Song S, Teng Y, Tang W, Xu Z, He Y, Ruan J, et al.
Nature
. 2025 Jan;
637(8046):580-586.
PMID: 39779862
Topological design of π electrons in zigzag-edged graphene nanoribbons (ZGNRs) leads to a wealth of magnetic quantum phenomena and exotic quantum phases. Symmetric ZGNRs typically show antiferromagnetically coupled spin-ordered edge...
2.
Lee W, Alvertis A, Li Z, Louie S, Filip M, Neaton J, et al.
Phys Rev Lett
. 2024 Dec;
133(20):206901.
PMID: 39626743
Atomically thin semiconductors, encompassing both 2D materials and quantum wells, exhibit a pronounced enhancement of excitonic effects due to geometric confinement. Consequently, these materials have become foundational platforms for the...
3.
Ruan J, Chan Y, Louie S
Nano Lett
. 2024 Nov;
24(49):15533-15539.
PMID: 39556702
Excitons are vital in the photophysics of materials, especially in low-dimensional systems. The conceptual and quantitative understanding of excitonic effects in nonlinear optical (NLO) processes is more challenging compared to...
4.
Li Z, Louie S
Phys Rev Lett
. 2024 Oct;
133(12):126401.
PMID: 39373415
We present a theoretical prediction of a phonon-mediated two-gap superconductivity in infinite-layer nickelates Nd_{1-x}Sr_{x}NiO_{2} by performing ab initio GW and GW perturbation theory calculations. Electron GW self-energy effects significantly alter...
5.
Gong X, Louie S, Duan W, Xu Y
Nat Comput Sci
. 2024 Oct;
4(10):752-760.
PMID: 39363113
Deep neural networks capable of representing the density functional theory (DFT) Hamiltonian as a function of material structure hold great promise for revolutionizing future electronic structure calculations. However, a notable...
6.
Alvertis A, Haber J, Li Z, Coveney C, Louie S, Filip M, et al.
Proc Natl Acad Sci U S A
. 2024 Jul;
121(30):e2403434121.
PMID: 39024110
The properties of excitons, or correlated electron-hole pairs, are of paramount importance to optoelectronic applications of materials. A central component of exciton physics is the electron-hole interaction, which is commonly...
7.
Li H, Xiang Z, Wang T, Naik M, Kim W, Nie J, et al.
Nature
. 2024 Jul;
631(8022):765-770.
PMID: 38961296
One-dimensional (1D) interacting electrons are often described as a Luttinger liquid having properties that are intrinsically different from those of Fermi liquids in higher dimensions. In materials systems, 1D electrons...
8.
Yoon Y, Lu Z, Uzundal C, Qi R, Zhao W, Chen S, et al.
Nature
. 2024 Jun;
631(8022):771-776.
PMID: 38926584
Phonon engineering at gigahertz frequencies forms the foundation of microwave acoustic filters, acousto-optic modulators and quantum transducers. Terahertz phonon engineering could lead to acoustic filters and modulators at higher bandwidth...
9.
Chan Y, Naik M, Haber J, Neaton J, Louie S, Qiu D, et al.
Nano Lett
. 2024 Jun;
24(26):7972-7978.
PMID: 38888269
Despite the weak, van der Waals interlayer coupling, photoinduced charge transfer vertically across atomically thin interfaces can occur within surprisingly fast, sub-50 fs time scales. An early theoretical understanding of...
10.
Daugherty M, Jacobse P, Jiang J, Jornet-Somoza J, Dorit R, Wang Z, et al.
J Am Chem Soc
. 2024 May;
146(23):15879-15886.
PMID: 38813680
The integration of low-energy states into bottom-up engineered graphene nanoribbons (GNRs) is a robust strategy for realizing materials with tailored electronic band structure for nanoelectronics. Low-energy zero-modes (ZMs) can be...