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Journal Abstract Search

152 related items for PubMed ID: 25234711

  • 1. GaP-ZnS pseudobinary alloy nanowires.
    Park K, Lee JA, Im HS, Jung CS, Kim HS, Park J, Lee CL.
    Nano Lett; 2014 Oct 08; 14(10):5912-9. PubMed ID: 25234711
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  • 2. Crystal-Structure-Dependent Piezotronic and Piezo-Phototronic Effects of ZnO/ZnS Core/Shell Nanowires for Enhanced Electrical Transport and Photosensing Performance.
    Jeong S, Kim MW, Jo YR, Kim TY, Leem YC, Kim SW, Kim BJ, Park SJ.
    ACS Appl Mater Interfaces; 2018 Aug 29; 10(34):28736-28744. PubMed ID: 30070111
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  • 3. Growth, structural and optical characterization of wurtzite GaP nanowires.
    Maliakkal CB, Gokhale M, Parmar J, Bapat RD, Chalke BA, Ghosh S, Bhattacharya A.
    Nanotechnology; 2019 Jun 21; 30(25):254002. PubMed ID: 30802882
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  • 4. Single crystalline wurtzite ZnO/zinc blende ZnS coaxial heterojunctions and hollow zinc blende ZnS nanotubes: synthesis, structural characterization and optical properties.
    Huang X, Willinger MG, Fan H, Xie ZL, Wang L, Klein-Hoffmann A, Girgsdies F, Lee CS, Meng XM.
    Nanoscale; 2014 Aug 07; 6(15):8787-95. PubMed ID: 24954555
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  • 6. Photoluminescence Characteristics of Zinc Blende InAs Nanowires.
    Anyebe EA, Kesaria M.
    Sci Rep; 2019 Nov 27; 9(1):17665. PubMed ID: 31776377
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  • 7. Structural Origin of the Band Gap Anomaly of Quaternary Alloy Cd(x)Zn(1-x)S(y)Se(1-y) Nanowires, Nanobelts, and Nanosheets in the Visible Spectrum.
    Kwon SJ, Jeong HM, Jung K, Ko DH, Ko H, Han IK, Kim GT, Park JG.
    ACS Nano; 2015 May 26; 9(5):5486-99. PubMed ID: 25897466
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  • 8. In(x)Ga(1-x)As nanowires with uniform composition, pure wurtzite crystal phase and taper-free morphology.
    Ameruddin AS, Fonseka HA, Caroff P, Wong-Leung J, Op het Veld RL, Boland JL, Johnston MB, Tan HH, Jagadish C.
    Nanotechnology; 2015 May 22; 26(20):205604. PubMed ID: 25927420
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  • 10. Unveiling Variations in Electronic and Atomic Structures Due to Nanoscale Wurtzite and Zinc Blende Phase Separation in GaAs Nanowires.
    Zeng L, Olsson E.
    Nano Lett; 2024 Jun 05; 24(22):6644-6650. PubMed ID: 38767455
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  • 12. Polytypism in GaAs/GaNAs core-shell nanowires.
    Yukimune M, Fujiwara R, Mita T, Ishikawa F.
    Nanotechnology; 2020 Dec 11; 31(50):505608. PubMed ID: 32937605
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  • 13. Effects of Polytypism on Optical Properties and Band Structure of Individual Ga(N)P Nanowires from Correlative Spatially Resolved Structural and Optical Studies.
    Dobrovolsky A, Persson PO, Sukrittanon S, Kuang Y, Tu CW, Chen WM, Buyanova IA.
    Nano Lett; 2015 Jun 10; 15(6):4052-8. PubMed ID: 25988267
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  • 14. Crystal Phase Quantum Well Emission with Digital Control.
    Assali S, Lähnemann J, Vu TTT, Jöns KD, Gagliano L, Verheijen MA, Akopian N, Bakkers EPAM, Haverkort JEM.
    Nano Lett; 2017 Oct 11; 17(10):6062-6068. PubMed ID: 28892396
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  • 15. A story told by a single nanowire: optical properties of wurtzite GaAs.
    Ahtapodov L, Todorovic J, Olk P, Mjåland T, Slåttnes P, Dheeraj DL, van Helvoort AT, Fimland BO, Weman H.
    Nano Lett; 2012 Dec 12; 12(12):6090-5. PubMed ID: 23131181
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  • 16. Kinetic Engineering of Wurtzite and Zinc-Blende AlSb Shells on InAs Nanowires.
    Kindlund H, Zamani RR, Persson AR, Lehmann S, Wallenberg LR, Dick KA.
    Nano Lett; 2018 Sep 12; 18(9):5775-5781. PubMed ID: 30133288
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  • 20. Crystal Structure Induced Preferential Surface Alloying of Sb on Wurtzite/Zinc Blende GaAs Nanowires.
    Hjort M, Kratzer P, Lehmann S, Patel SJ, Dick KA, Palmstrøm CJ, Timm R, Mikkelsen A.
    Nano Lett; 2017 Jun 14; 17(6):3634-3640. PubMed ID: 28537733
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