Carbon 2011, 49:2141–2144.CrossRef 35. Hoffmann S, Bauer J, Ronning C, Stelzner T, Michler J, Ballif

C, Sivakov V, Christiansen S: Axial p-n junctions realized in silicon nanowires by ion implantation. Nano Lett 2009, 9:1341–1344.CrossRef 36. Kanungo PD, Kögler R, Werner P, Gösele U, Skorupa W: A novel Niraparib method to fabricate silicon nanowire p-n junctions Saracatinib order by a combination of ion implantation and in-situ doping. Nanoscale Res Lett 2010, 5:243–246.CrossRef 37. Hayden O, Björk MT, Schmid H, Riel H, Drechsler U, Karg SF, Lörtscher E, Riess W: Fully depleted nanowire field-effect transistor in inversion mode. Small 2007, 3:230–234.CrossRef 38. Jang JH, Lim SC, Duong DL, Kim G, Yu WJ, Han KH, Min YS, Lee YH: Doping of carbon nanotubes using low energy ion implantation. J Nanosci Nanotechnol 2010, 10:3934–3939.CrossRef 39. Liao ZM, Lu Y, Wu HC, Bie YQ, Zhou YB, Yu DP: Improved performance of ZnO nanowire field-effect transistors via focused ion beam treatment. Nanotechnology 2011, 22:375201–375205.CrossRef 40. Bao J, Zimmler MA, Capasso F, Wang X, Ren Z: Broadband ZnO single-nanowire light-emitting diode. Nano Lett 2006, 6:1719–1722.CrossRef 41. Qian F, Gradecak S, Li Y, Wen CY, Lieber CM: Core/multishell nanowire heterostructures as multicolor, high-efficiency PF299 light-emitting

diodes. Nano Lett 2005, 5:2287–2291.CrossRef 42. Svensson CPT, Mårtensson T, Trägårdh J, Larsson C, Rask M, Hessman D, Samuelson L, Ohlsson J: Monolithic GaAs/InGaP nanowire light emitting diodes on silicon. Nanotechnology 2008, 19:305201.CrossRef 43. Johnson JC, Yan H, Schaller RD, Haber LH, Saykally RJ, Yang P: Single nanowire lasers. J Phys Chem B 2001, 105:11387–11390.CrossRef 44. Yuhas BD, Zitoun DO, Pauzauskie PJ, He R, Yang P: Transition-metal doped zinc oxide nanowires. Angewandte Chemie 2006, 118:434–437.CrossRef 45. Bhargava R: The second role of impurity in doped nanocrystals. J Lumin 1997, 72:46–48.CrossRef 46. Elliman R, Wilkinson A, Kim TH, Sekhar P, Bhansali S: Optical emission from erbium-doped silica nanowires. J Appl Phys 2008, 103:104304–104308.CrossRef 47. Polman A: Erbium implanted thin film photonic

materials. J Appl Phys 1997, 82:1–39.CrossRef 48. Zimmler MA, Bao J, Capasso F, Müller S, Ronning C: Laser action in nanowires: Observation of the transition from amplified spontaneous emission to laser oscillation. Appl Phys Lett 2008, 93:051101–051103.CrossRef 49. Müller S, Zhou M, Li Q, Ronning C: Intra-shell luminescence of transition-metal-implanted zinc oxide nanowires. Nanotechnology 2009, 20:135704–135711.CrossRef 50. Rita E, Wahl U, Correia J, Alves E, Soares J: Lattice location and thermal stability of implanted Fe in ZnO. Appl Phys Lett 2004, 85:4899–4901.CrossRef 51. Wahl U, Rita E, Correia J, Alves E, Soares J: Lattice location and stability of implanted Cu in ZnO. Phys Rev B 2004, 69:012102–012105.CrossRef 52. Ronning C, Gao P, Ding Y, Wang ZL, Schwen D: Manganese-doped ZnO nanobelts for spintronics.