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Journal Abstract Search

644 related items for PubMed ID: 30225488

  • 1. First-principles calculations of the electronic properties of SiC-based bilayer and trilayer heterostructures.
    Li S, Sun M, Chou JP, Wei J, Xing H, Hu A.
    Phys Chem Chem Phys; 2018 Oct 03; 20(38):24726-24734. PubMed ID: 30225488
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  • 2. Tunable Schottky barrier in graphene/graphene-like germanium carbide van der Waals heterostructure.
    Wang S, Chou JP, Ren C, Tian H, Yu J, Sun C, Xu Y, Sun M.
    Sci Rep; 2019 Mar 26; 9(1):5208. PubMed ID: 30914666
    [Abstract] [Full Text] [Related]

  • 3. Tunable interlayer coupling and Schottky barrier in graphene and Janus MoSSe heterostructures by applying an external field.
    Li Y, Wang J, Zhou B, Wang F, Miao Y, Wei J, Zhang B, Zhang K.
    Phys Chem Chem Phys; 2018 Oct 07; 20(37):24109-24116. PubMed ID: 30204181
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  • 4. Interlayer coupling and electric field tunable electronic properties and Schottky barrier in a graphene/bilayer-GaSe van der Waals heterostructure.
    Phuc HV, Hieu NN, Hoi BD, Nguyen CV.
    Phys Chem Chem Phys; 2018 Jul 04; 20(26):17899-17908. PubMed ID: 29926024
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  • 5. Tailoring the structural and electronic properties of an SnSe2/MoS2 van der Waals heterostructure with an electric field and the insertion of a graphene sheet.
    Vu TV, Hieu NV, Thao LTP, Hieu NN, Phuc HV, Bui HD, Idrees M, Amin B, Duc LM, Nguyen CV.
    Phys Chem Chem Phys; 2019 Oct 09; 21(39):22140-22148. PubMed ID: 31573019
    [Abstract] [Full Text] [Related]

  • 6. Electronic structure, optical and photocatalytic performance of SiC-MX2 (M = Mo, W and X = S, Se) van der Waals heterostructures.
    Din HU, Idrees M, Rehman G, Nguyen CV, Gan LY, Ahmad I, Maqbool M, Amin B.
    Phys Chem Chem Phys; 2018 Oct 07; 20(37):24168-24175. PubMed ID: 30207335
    [Abstract] [Full Text] [Related]

  • 7. Lowering the Schottky barrier height of G/WSSe van der Waals heterostructures by changing the interlayer coupling and applying external biaxial strain.
    Zhang WX, Yin Y, He C.
    Phys Chem Chem Phys; 2020 Nov 25; 22(45):26231-26240. PubMed ID: 33174552
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  • 11. Strain and Electric Field Controllable Schottky Barriers and Contact Types in Graphene-MoTe2 van der Waals Heterostructure.
    Lan Y, Xia LX, Huang T, Xu W, Huang GF, Hu W, Huang WQ.
    Nanoscale Res Lett; 2020 Sep 21; 15(1):180. PubMed ID: 32955632
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  • 13. Controllable Schottky barriers and contact types of BN intercalation layers in graphene/MoSi2As4 vdW heterostructures via applying an external electrical field.
    Guo Y, Dong Y, Cai X, Liu L, Jia Y.
    Phys Chem Chem Phys; 2022 Aug 03; 24(30):18331-18339. PubMed ID: 35880664
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  • 14. Tuning the Schottky barrier height in graphene/monolayer-GeI2van der Waals heterostructure.
    de Andrade Deus DP, de Oliveira ISS.
    J Phys Condens Matter; 2020 May 29; 32(35):. PubMed ID: 32320968
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  • 16. Using van der Waals heterostructures based on two-dimensional blue phosphorus and XC (X = Ge, Si) for water-splitting photocatalysis: a first-principles study.
    Ren K, Ren C, Luo Y, Xu Y, Yu J, Tang W, Sun M.
    Phys Chem Chem Phys; 2019 May 15; 21(19):9949-9956. PubMed ID: 31041433
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  • 18. Tunable Schottky barrier in InTe/graphene van der Waals heterostructure.
    Li H, Zhou Z, Wang H.
    Nanotechnology; 2020 Aug 14; 31(33):335201. PubMed ID: 32348976
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  • 19. Investigation on photocatalytic mechanism of graphitic SiC (g-SiC)/MoS2 van der Waals heterostructured photocatalysts for overall water splitting.
    Gao X, Shen Y, Ma Y, Wu S, Zhou Z.
    Phys Chem Chem Phys; 2019 Jul 17; 21(28):15372-15379. PubMed ID: 31271398
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