Yuan Ping Feng
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Explore the profile of Yuan Ping Feng including associated specialties, affiliations and a list of published articles.
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107
Citations
566
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Recent Articles
1.
Sun S, You J, Cai Z, Su J, Yang T, Peng X, et al.
Adv Mater
. 2024 Dec;
37(5):e2411182.
PMID: 39659109
Materials with flat bands can serve as a promising platform to investigate strongly interacting phenomena. However, experimental realization of ideal flat bands is mostly limited to artificial lattices or moiré...
2.
Zhou J, You J, Zhao Y, Feng Y, Shen L
Acc Chem Res
. 2024 Aug;
57(17):2572-2581.
PMID: 39159428
ConspectusElectrides make up a fascinating group of materials with unique physical and chemical properties. In these materials, excess electrons do not behave like normal electrons in metals or form any...
3.
Chen H, Tian W, Zhang L, Song P, Jia L, Chen J, et al.
Small
. 2024 Jul;
20(44):e2403073.
PMID: 38966892
Spin injection, transport, and detection across the interface between a ferromagnet and a spin-carrying channel are crucial for energy-efficient spin logic devices. However, interfacial conductance mismatch, spin dephasing, and inefficient...
4.
Kshetri Y, Chaudhary B, Kim J, Nam S, Murali G, Zhou J, et al.
Small
. 2024 Jun;
20(40):e2402528.
PMID: 38845027
The crystal structure and phase stability of a host lattice plays an important role in efficient upconversion phenomena. In stable hosts, lanthanides doping should not generally change the crystal structure...
5.
You J, Su G, Feng Y
Natl Sci Rev
. 2023 Dec;
11(1):nwad114.
PMID: 38116092
The finite Berry curvature in topological materials can induce many subtle phenomena, such as the anomalous Hall effect (AHE), spin Hall effect (SHE), anomalous Nernst effect (ANE), non-linear Hall effect...
6.
Wang Z, You J, Chen C, Mo J, He J, Zhang L, et al.
Nanoscale Horiz
. 2023 Jul;
8(10):1395-1402.
PMID: 37477436
Exotic phenomena due to the interplay of different quantum orders have been observed and the study of these phenomena has emerged as a new frontier in condensed matter research, especially...
7.
Zhou J, Wang Z, Wang S, Feng Y, Yang M, Shen L
Nanoscale Horiz
. 2023 Jul;
8(8):1054-1061.
PMID: 37395097
Charge density waves (CDWs), a common phenomenon of periodic lattice distortions, often suppress ferromagnetism in two-dimensional (2D) materials, hindering their magnetic applications. Here, we report a novel CDW that generates...
8.
Shao S, Yin J, Belopolski I, You J, Hou T, Chen H, et al.
ACS Nano
. 2023 May;
17(11):10164-10171.
PMID: 37186957
Recent experiments report a charge density wave (CDW) in the antiferromagnet FeGe, but the nature of the charge ordering and the associated structural distortion remains elusive. We discuss the structural...
9.
Wang D, Wang Z, Wu S, Arramel , Yin X, Tang C, et al.
ACS Nanosci Au
. 2023 Apr;
2(4):333-340.
PMID: 37102064
Well-ordered spin arrays are desirable for next-generation molecule-based magnetic devices, yet their synthetic method remains a challenging task. Herein, we demonstrate the realization of two-dimensional supramolecular spin arrays on surfaces...
10.
Ren L, Liu L, Song X, Zhao T, Xing X, Feng Y, et al.
Nano Lett
. 2023 Apr;
23(8):3394-3400.
PMID: 37043331
Magnetic Weyl semimetals (MWSMs) exhibit unconventional transport phenomena, such as large anomalous Hall (and Nernst) effects, which are absent in spatial inversion asymmetry WSMs. Compared with its nonmagnetic counterpart, the...