**Chapter 6**

arrays on Ti alloy. Biomaterials. 2010;

[78] Lee J, Chu BH, Chen K-H, Ren F, Lele TP. Randomly oriented, upright SiO2 coated nanorods for reduced adhesion of mammalian cells.

Biomaterials. 2009;**30**(27):4488-4493

Chancellor TF, Chu BH, Wang H-T, et al. The control of cell adhesion and viability by zinc oxide nanorods. Biomaterials. 2008;**29**(27):3743-3749

[80] Maya-Vetencourt JF, Ghezzi D, Antognazza MR, Colombo E, Mete M, Feyen P, et al. A fully organic retinal prosthesis restores vision in a rat model of degenerative blindness. Nature

[81] Vodovnik L, Miklavčič D, Serša G. Modified cell proliferation due to electrical currents. Medical and

Biological Engineering and Computing.

[82] Prinz CN. Interactions between semiconductor nanowires and living cells. Journal of Physics: Condensed

[84] Lanzani G. Light touch. Nature Nanotechnology. 2018;**13**(3):181

nanowire radial p–n junction solar cells. Journal of the American Chemical Society. 2008;**130**(29):9224-9225

ChemPhysChem. 2012;**13**(13):3092-3097

[85] Garnett EC, Yang P. Silicon

[86] Gréget R, Nealon GL, Vileno B, Turek P, Mény C, Ott F, et al. Magnetic properties of gold nanoparticles: A room-

temperature quantum effect.

**136**

[79] Lee J, Kang BS, Hicks B,

Materials. 2017;**16**(6):681

1992;**30**(4):CE21-CE28

Matter. 2015;**27**(23):233103

[83] Shah S, Hines A, Zhou D, Greenberg RJ, Humayun MS, Weiland JD. Electrical properties of retinal–electrode interface. Journal of Neural Engineering. 2007;**4**(1):S24

**31**(32):8341-8349

*Regenerative Medicine*
