Nature 2006, 440:69–71 CrossRef 23 Jianwei Z, Lirong Q, Yong Z,

Nature 2006, 440:69–71.Selleck GANT61 CrossRef 23. Jianwei Z, Lirong Q, Yong Z, Yonghao H, Qing G, Lide Z: Catalytic growth of cubic phase ZnO nanowires with jagged surface. Micro Nano

Lett 2010, 5:336–339.CrossRef 24. Jiang W, Seungyong L, Reddy VR, Manasreh MO, Weaver BD, Yakes MK, Furrow CS, Blebbistatin nmr Kunets VP, Benamara M, Salamo GJ: Photoluminescence plasmonic enhancement in InAs quantum dots coupled to gold nanoparticle. Mater Lett 2011, 65:3605–3608.CrossRef 25. Guang Z, Fengfang S, Tian L, Likun P, Zhuo S: Au nanoparticles as interfacial layer for CdS quantum dot-sensitized solar cells. Nanoscale Res Lett 2010, 5:1749–1754.CrossRef 26. Catchpole KR, Polman A: Design principles for particle plasmon enhanced solar cells. Appl Phys Lett 2008, 93:191113(1)-191113(3).CrossRef 27. Jiang W, Mangham SC, Reddy VR, Manasreh MO, Weaver BD: Surface plasmon ABT-888 in vitro enhanced intermediate band based quantum dots solar cell. Sol Energy Mater Sol Cells 2012, 102:44–49.CrossRef 28. Zhang YF, Wang YF, Chen N, Wang YY, Zhang YZ, Zhou ZH, Wei LM: Photovoltaic enhancement of Si solar cells by assembled carbon nanotubes. Nano-Micro Lett 2010, 2:22–25. 29. Jiunn-Woei L,

Huang-Chih C, Mao-Kuen K: Plasmonic Fano resonance and dip of Au-SiO 2 -Au nanomatryoshka. Nanoscale Res Lett 2013, 8:468(1)-486(8). 30. Jian Hua Y, Elder KR, Hong G, Martin G: Theory and simulation of Ostwald ripening. Phys Rev B 1993, 47:14110–14125.CrossRef 31. Alloyeau D, Oikawa T, Nelayah J, Wang G, Ricolleau C: Following Ostwald ripening in nanoalloys by high-resolution imaging with single-atom chemical sensitivity. Appl Phys Lett 2012, 101:121920(1)-121920(3).CrossRef SDHB 32. Zhenyu Z, Lagally MG: Atomistic processes in the early stages of thin-film growth. Science 1997, 276:377–383.CrossRef 33. Abraham DB, Newman CM: Equilibrium Stranski-Krastanow and Volmer-Weber models. Europhysics Lett 2009, 86:16002(p1)-16002(p4).CrossRef

34. Sui M, Li MY, Kim ES, Lee JH: Annealing temperature effect on self-assembled Au droplets on Si (111). Nanoscale Res Lett 2013, 8:525.CrossRef 35. Lei G, Yusuke H, Ming-Yu L, Jiang W, Sangmin S, Sang-Mo K, Eun-Soo K, Wang ZM, Jihoon L, Salamo GJ: Observation of Ga metal droplet formation on photolithographically patterned GaAs (100) surface by droplet epitaxy. IEEE Trans Nanotechnol 2012, 11:985–991.CrossRef 36. Rijnders G, Blank DHA: Pulsed Laser Deposition of Thin Films: Applications-Led Growth of Functional Materials, Chapter 8. USA: Wiley-Interscience, USA; 2007:179–180. 37. Jihoon L, Zhiming W, Yusuke H, Eun-Soo K, Namyoung K, Seunghyun P, Cong W, Salamo GJ: Various configurations of In nanostructures on GaAs (100) by droplet epitaxy. Cryst Eng Comm 2010, 12:3404–3408.CrossRef 38. Ziad Y, Abu W, Wang ZM, Lee JH, Salamo GJ: Optical behavior of GaAs/AlGaAs ring-like nanostructures. Nanotechnology 2006, 17:4037–4040.CrossRef 39.

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