Nanotechnology 2012, 23:175501–175501.CrossRef

13. Wu H, Xu M, Wang Y, Zheng G: Branched Co 3 O 4 /Fe 2 O 3 nanowires as high capacity lithium-ion battery anodes. Nano Res 2013, 6:167–173.CrossRef 14. Zhou W, Cheng C, Liu J, Tay YY, Jiang J, Jia X, Zhang J, Gong H, Hng HH, Yu T, Fan HJ: Epitaxial growth of branched α-Fe 2 O 3 /SnO 2 nano-heterostructures with improved lithium-ion battery performance. Adv Funct Mater 2011, 21:2439–2445.CrossRef 15. Xiang J, Lu W, Hu Y, Wu Y, Yan H, Lieber CM: Ge/Si nanowire heterostructures as high-performance field-effect transistors. Nature 2006, 441:489–493.CrossRef 16. Bakkers EPAM, Bulgarini G, Reimer ME, Kouwenhoven LP, Zwiller V: Avalanche amplification of a single exciton in a semiconductor nanowire. Nature Photon 2012, 6:455–458.CrossRef 17. Cho IS, Chen Z, Forman AJ, Kim DR, C646 Rao PM, Jaramillo TF, Zheng X: Branched TiO 2 nanorods for photoelectrochemical hydrogen production. Nano lett 2011, 11:4978–4984.CrossRef 18. Dhara S, Giri PK: ZnO/Anthracene based inorganic/organic nanowire heterostructure: photoresponse and photoluminescence

studies. J Appl Phys 2012, 111:044320–044320.CrossRef 19. Dobrokhotov VV, McIlroy DN, Norton MG, Abdelrahaman R, Safir A, Berven CA: Interaction of hybrid nanowire-nanoparticle structures with carbon monoxide. Nanotechnology 2009, 20:135504–135504.CrossRef 20. Mai L-Q, Yang F, Zhao Y-L, Xu X, Xu L, Luo Y-Z: Hierarchical URMC-099 mouse MnMoO 4 /CoMoO 4 heterostructured nanowires with enhanced supercapacitor performance.

Nat Commun 2011, 2:381–381.CrossRef 21. Cho IS, Lee CH, Feng Y, Logar M, Rao PM, Cai L, Kim DR, Sinclair R, Zheng X: Codoping titanium dioxide nanowires with tungsten and carbon for enhanced photoelectrochemical performance. Nat Commun 2013, 4:1723–1723.CrossRef 22. Feng Y, Cho IS, Cai L, Rao PM, Zheng X: Sol-flame NSC 683864 molecular weight synthesis of hybrid metal oxide nanowires. Proc Combust Inst 2013, 34:2179–2186.CrossRef 23. Feng Y, Cho IS, Rao PM, Cai L, Zheng X: Sol-flame synthesis: a general strategy to decorate nanowires with metal oxide/noble metal nanoparticles. Terminal deoxynucleotidyl transferase Nano lett 2013, 13:855–860.CrossRef 24. Feng Y, Zheng X: Plasma-enhanced catalytic CuO nanowires for CO oxidation. Nano Lett 2010, 10:4762–4766.CrossRef 25. Jiao F, Frei H: Nanostructured cobalt and manganese oxide clusters as efficient water oxidation catalysts. Energy & Environmental Science 2010, 3:1018–1027.CrossRef 26. Li D, Liu X, Zhang Q, Wang Y, Wan H: Cobalt and copper composite oxides as efficient catalysts for preferential oxidation of CO in H 2 -rich stream. Catalysis letters 2009, 127:377–385.CrossRef 27. Wang D, Wang Q, Wang T: Morphology-controllable synthesis of cobalt oxalates and their conversion to Mesoporous Co 3 O 4 nanostructures for application in supercapacitors. Inorg Chem 2011, 50:6482–6492.CrossRef 28. Li Y, Tan B, Wu Y: Freestanding mesoporous quasi-single-crystalline Co 3 O 4 nanowire arrays. J Am Chem Soc 2006, 128:14258–14259.CrossRef 29.