Sukhorukova I et al (2015) Toward bioactive yet antibacterial surfaces. Colloids Surf B

Biointerfaces 135:158165

Wang L, Hu C, Shao L (2017) The antimicrobial activity of nanoparticles: present situation and

prospects for the future. Int J Nanomedicine 12:1227

Wehling J, Dringen R, Zare RN, Maas M, Rezwan K (2014) Bactericidal activity of partially

oxidized nanodiamonds. ACS Nano 8:64756483

Wong M-S, Chen C-W, Hsieh C-C, Hung S-C, Sun D-S, Chang H-H (2015) Antibacterial property

of Ag nanoparticle-impregnated N-doped titanialms under visible light. Sci Rep 5:11978

Wu B, Zhuang W-Q, Sahu M, Biswas P, Tang YJ (2011) Cu-doped TiO2 nanoparticles enhance

survival of Shewanella oneidensis MR-1 under Ultraviolet Light (UV) exposure. Sci Total

Environ 409:46354639

Yoon K-Y, Byeon JH, Park J-H, Hwang J (2007) Susceptibility constants of Escherichia coli and

Bacillus subtilis to silver and copper nanoparticles. Sci Total Environ 373:572575

Yu J et al (2014) Synthesis, characterization, antimicrobial activity and mechanism of a novel

hydroxyapatite whisker/nano zinc oxide biomaterial. Biomed Mater 10:015001

Zhang L, Pornpattananangkul D, Hu C-M, Huang C-M (2010) Development of nanoparticles for

antimicrobial drug delivery. Curr Med Chem 17:585594

Zhang W, Li Y, Niu J, Chen Y (2013) Photogeneration of reactive oxygen species on uncoated

silver, gold, nickel, and silicon nanoparticles and their antibacterial effects. Langmuir 29:4647

4651

Zhukova LV (2015) Evidence for compression of Escherichia coli K12 cells under the effect of

TiO2 nanoparticles. ACS Appl Mater Interfaces 7:2719727205

11

Nanoparticles: A Potential Breakthrough in Counteracting. . .

177