Wu ZJ, Song CF, Guo J, Yu BJ, Qian LM: A multi-probe micro-fabric

Wu ZJ, Song CF, Guo J, Yu BJ, Qian LM: A multi-probe micro-fabrication apparatus based on the friction-induced www.selleckchem.com/products/dinaciclib-sch727965.html fabrication method. Front Mech Eng 2013,8(4):333–339.CrossRef 16. Hendrickson J, Helfrich M, Gehl M, Hu D, Schaadt D, Linden S, Wegener M, Richards B, Gibbs H, Khitrova G: InAs quantum dot site-selective growth on GaAs substrates. Phys Status Solidi C 2011, 8:1242–1245.CrossRef 17. Song CF, Li XY, Yu BJ, Dong HS, Qian LM, Zhou ZR:

Friction-induced nanofabrication method to produce protrusive nanostructures on quartz. Nanoscale Res Lett 2011, 6:310.CrossRef 18. Fang TH, Chang WJ, Lin CM: Nanoindentation and nanoscratch characteristics of Si and GaAs. Microelectron Eng 2005, 77:389–398.CrossRef 19. Taylor CR, Malshe AP, Salamo G, Prince RN, Riester L, Cho SO: Characterization of ultra-low-load (μN) nanoindents in GaAs (100) using a cube corner tip. Smart Mater Struct 2005, 14:963–970.CrossRef 20. Sung IH, Yang JC, Kim DE, Shin BS: Micro/nano-tribological characteristics Pictilisib in vivo of self-assembled monolayer and its application in nano-structure fabrication. Wear 2003, 255:808–818.CrossRef 21. Song CF, Li XY, Yu BJ, Dong HS, Qian LM, Zhou ZR: Maskless and low-destructive nanofabrication on quartz by friction-induced selective etching. Nanoscale Res Lett 2013,

8:140.CrossRef 22. Guo J, Song CF, Li XY, Yu BJ, Dong HS, Qian LM, Zhou ZR: Fabrication mechanism of friction-induced selective etching on Si (100) surface. Nanoscale Res Lett 2012, 7:152.CrossRef 23. Suedu-Bob CC, Saied SO, Sullivan JL: A X-ray photoelectron spectroscopy study of the oxides of GaAs. Appl Surf Sci 2006, 183:126–136.CrossRef 24. Ghidaoui D, Lyon SB, Thompson GE, Walton J: Oxide formation during etching of gallium arsenide. Corrosion Sci 2002, 44:501–509.CrossRef 25. Zardo I, Yazji S, Marini C, Uccelli E, Morral AF, Abstreiter G, Postorino P: Pressure tuning of the optical properties of GaAs nanowires. ACS Nano 2012,6(4):3284–3291.CrossRef 26. Gotoshia

SV, Gotoshia LV: Laser Raman spectroscopy of phase transformation in GaAs induced by radiation defects. Phys Status Solidi C 2013, 4:646–649.CrossRef 27. Pizani PS, Lanciotti F, Jasinevicius RG, Duduch JG, Porto AJV: Raman characterization of structural disorder and residual strains in micromachined GaAs. J Appl Phys 2000, 87:1280.CrossRef 28. Attolini G, Francesio L, Franzosi P, Pelosi C, MLN8237 supplier Gennari S, Thymidylate synthase Lottici PP: Raman scattering study of residual strain in GaAs/InP heterostructures. J Appl Phys 1994, 75:4156.CrossRef 29. Champagnon B, Martinet C, Boudeulle M, Vouagner D, Coussa C, Deschamps T, Grosvalet L: High pressure elastic and plastic deformations of silica: In situ diamond anvil cell Raman experiments. J Non-Cryst Solids 2008, 254:569–573.CrossRef 30. Kiravittaya S, Heidemeyer H, Schmidt OG: Growth of three-dimensional quantum dot crystals on patterned GaAs (001) substrates. Phys E 2004, 23:253–259.CrossRef Competing interests The authors declare that they have no competing interests.

Comments are closed.