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Journal Abstract Search

431 related items for PubMed ID: 32330042

  • 21.
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  • 23. Gate-Controlled Magnetic Phase Transition in a van der Waals Magnet Fe5GeTe2.
    Tan C, Xie WQ, Zheng G, Aloufi N, Albarakati S, Algarni M, Li J, Partridge J, Culcer D, Wang X, Yi JB, Tian M, Xiong Y, Zhao YJ, Wang L.
    Nano Lett; 2021 Jul 14; 21(13):5599-5605. PubMed ID: 34152781
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  • 24. Manipulating exchange bias in 2D magnetic heterojunction for high-performance robust memory applications.
    Huang X, Zhang L, Tong L, Li Z, Peng Z, Lin R, Shi W, Xue KH, Dai H, Cheng H, de Camargo Branco D, Xu J, Han J, Cheng GJ, Miao X, Ye L.
    Nat Commun; 2023 Apr 17; 14(1):2190. PubMed ID: 37069179
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  • 26. Spin-Driven Ferroelectricity in Two-Dimensional Magnetic Heterostructures.
    Li H, Zhu W.
    Nano Lett; 2023 Nov 22; 23(22):10651-10656. PubMed ID: 37955300
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  • 27. Controlling the 2D Magnetism of CrBr3 by van der Waals Stacking Engineering.
    Yang S, Xu X, Han B, Gu P, Guzman R, Song Y, Lin Z, Gao P, Zhou W, Yang J, Chen Z, Ye Y.
    J Am Chem Soc; 2023 Dec 27; 145(51):28184-28190. PubMed ID: 38096486
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  • 28. Layer-Dependent Magnetism and Spin Fluctuations in Atomically Thin van der Waals Magnet CrPS4.
    Huang M, Green JC, Zhou J, Williams V, Li S, Lu H, Djugba D, Wang H, Flebus B, Ni N, Du CR.
    Nano Lett; 2023 Sep 13; 23(17):8099-8105. PubMed ID: 37656017
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  • 29. Spin-Valve Effect in Fe3GeTe2/MoS2/Fe3GeTe2 van der Waals Heterostructures.
    Lin H, Yan F, Hu C, Lv Q, Zhu W, Wang Z, Wei Z, Chang K, Wang K.
    ACS Appl Mater Interfaces; 2020 Sep 30; 12(39):43921-43926. PubMed ID: 32878440
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  • 31. Enhancement of the Coercive Field and Exchange Bias Effect in Fe3GeTe2/MnPX3 (X = S and Se) van der Waals Heterostructures.
    Dai H, Cheng H, Cai M, Hao Q, Xing Y, Chen H, Chen X, Wang X, Han JB.
    ACS Appl Mater Interfaces; 2021 May 26; 13(20):24314-24320. PubMed ID: 33977712
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  • 32.
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  • 33. Exchange Bias Between van der Waals Materials: Tilted Magnetic States and Field-Free Spin-Orbit-Torque Switching.
    Cham TMJ, Dorrian RJ, Zhang XS, Dismukes AH, Chica DG, May AF, Roy X, Muller DA, Ralph DC, Luo YK.
    Adv Mater; 2024 Mar 26; 36(13):e2305739. PubMed ID: 37800466
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  • 34. Antiferromagnet-Semiconductor Van Der Waals Heterostructures: Interlayer Interplay of Exciton with Magnetic Ordering.
    Onga M, Sugita Y, Ideue T, Nakagawa Y, Suzuki R, Motome Y, Iwasa Y.
    Nano Lett; 2020 Jun 10; 20(6):4625-4630. PubMed ID: 32407633
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  • 35. Ferroelectric Control of Magnetic Skyrmions in Two-Dimensional van der Waals Heterostructures.
    Huang K, Shao DF, Tsymbal EY.
    Nano Lett; 2022 Apr 27; 22(8):3349-3355. PubMed ID: 35380845
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  • 36. Interface Engineering of Magnetic Anisotropy in van der Waals Ferromagnet-based Heterostructures.
    Kim SJ, Choi D, Kim KW, Lee KY, Kim DH, Hong S, Suh J, Lee C, Kim SK, Park TE, Koo HC.
    ACS Nano; 2021 Oct 26; 15(10):16395-16403. PubMed ID: 34608798
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  • 37. Tunneling Spin Valves Based on Fe3GeTe2/hBN/Fe3GeTe2 van der Waals Heterostructures.
    Wang Z, Sapkota D, Taniguchi T, Watanabe K, Mandrus D, Morpurgo AF.
    Nano Lett; 2018 Jul 11; 18(7):4303-4308. PubMed ID: 29870263
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  • 38. Quantum magnetic phenomena in engineered heterointerface of low-dimensional van der Waals and non-van der Waals materials.
    Gogoi L, Gao W, Ajayan PM, Deb P.
    Phys Chem Chem Phys; 2023 Jan 18; 25(3):1430-1456. PubMed ID: 36601788
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  • 39. Interface engineering strategy for multisource spintronic devices via TMPS4 modulation of black-phosphorus.
    Wang T, Liu F, Liu S, Liu B, Zhu S.
    Phys Chem Chem Phys; 2023 Sep 13; 25(35):23988-23994. PubMed ID: 37646169
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  • 40. Li-ion intercalation-driven control of two-dimensional magnetism in van der Waals FePS3 bilayers.
    Chen D, Wang C, Peng C.
    Phys Chem Chem Phys; 2024 Mar 06; 26(10):8436-8447. PubMed ID: 38410084
    [Abstract] [Full Text] [Related]

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