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94 related items for PubMed ID: 19451686

  • 1. Tunable synthesis of indium oxide octahedra, nanowires and tubular nanoarrow structures under oxidizing and reducing ambients.
    Kumar M, Singh VN, Mehta BR, Singh JP.
    Nanotechnology; 2009 Jun 10; 20(23):235608. PubMed ID: 19451686
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  • 2. The temperature-controlled growth of In2O3 nanowires, nanotowers and ultra-long layered nanorods.
    Singh N, Zhang T, Lee PS.
    Nanotechnology; 2009 May 13; 20(19):195605. PubMed ID: 19420644
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  • 4. Plasma-enhanced low temperature growth of silicon nanowires and hierarchical structures by using tin and indium catalysts.
    Yu L, O'Donnell B, Alet PJ, Conesa-Boj S, Peiró F, Arbiol J, Cabarrocas PR.
    Nanotechnology; 2009 Jun 03; 20(22):225604. PubMed ID: 19436096
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  • 5. Kinetics-driven growth of orthogonally branched single-crystalline magnesium oxide nanostructures.
    Hao Y, Meng G, Ye C, Zhang X, Zhang L.
    J Phys Chem B; 2005 Jun 09; 109(22):11204-8. PubMed ID: 16852367
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  • 12. Synthesis of branched 'nanotrees' by controlled seeding of multiple branching events.
    Dick KA, Deppert K, Larsson MW, Mårtensson T, Seifert W, Wallenberg LR, Samuelson L.
    Nat Mater; 2004 Jun 09; 3(6):380-4. PubMed ID: 15122221
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  • 13. Zinc incorporation via the vapor-liquid-solid mechanism into InP nanowires.
    van Weert MH, Helman A, van den Einden W, Algra RE, Verheijen MA, Borgström MT, Immink G, Kelly JJ, Kouwenhoven LP, Bakkers EP.
    J Am Chem Soc; 2009 Apr 08; 131(13):4578-9. PubMed ID: 19281234
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  • 14. The effect of the concentration and oxidation state of Sn on the structural and electrical properties of indium tin oxide nanowires.
    Park KS, Choi YJ, Kang JG, Sung YM, Park JG.
    Nanotechnology; 2011 Jul 15; 22(28):285712. PubMed ID: 21659686
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  • 15. Room-temperature chemical synthesis of shape-controlled indium nanoparticles.
    Chou NH, Ke X, Schiffer P, Schaak RE.
    J Am Chem Soc; 2008 Jul 02; 130(26):8140-1. PubMed ID: 18540599
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