Roy A, Bulut O, Some S, Mandal AK, Yilmaz MD (2019) Green synthesis of silver nanoparticles:
biomolecule-nanoparticle organizations targeting antimicrobial activity. RSC Adv 9(5):
2673–2702
Saga T, Yamaguchi K (2009) History of antimicrobial agents and resistant bacteria. JMAJ 52(2):
103–108
Sawai J, Kojima H, Igarashi H, Hashimoto A, Shoji S, Sawaki T, Hakoda A, Kawada E,
Kokugan T, Shimizu M (2000) Antibacterial characteristics of magnesium oxide powder.
World J Microbiol Biotechnol 16(2):187–194
Shallcross LJ, Howard SJ, Fowler T, Davies SC (2015) Tackling the threat of antimicrobial
resistance: from policy to sustainable action. Philos Trans R Soc B 370(1670):20140082
Shamaila S, Zafar N, Riaz S, Sharif R, Nazir J, Naseem S (2016) Gold nanoparticles: an efficient
antimicrobial agent against enteric bacterial human pathogen. Nano 6(4):71
Shi T, Wei Q, Wang Z, Zhang G, Sun X, He QY (2019) Photocatalytic protein damage by silver
nanoparticles circumvents bacterial stress response and multidrug resistance. mSphere 4:1–12
Silver LL (2011) Challenges of antibacterial discovery. Clin Microbiol Rev 24(1):71–109
Singh R, Cheng S, Singh S (2020) Oxidative stress-mediated genotoxic effect of zinc oxide
nanoparticles on Deinococcus radiodurans. 3-Biotech 10:66
Snitkin ES, Zelazny AM, Thomas PJ, Stock F, Henderson DK, Palmore TN, Segre JA, NISC
Comparative Sequencing Program (2012) Tracking a hospital outbreak of carbapenem-resistant
Klebsiella pneumoniae with whole-genome sequencing. Sci Transl Med 4(148):148ra116
Sondi I, Salopek-Sondi B (2004) Silver nanoparticles as antimicrobial agent: a case study on E. coli
as a model for Gram-negative bacteria. J Colloid Interface Sci 275(1):177–182
Soo Z, Chai LC, Ang BC, Ong BH (2020) Enhancing the antibacterial performance of titanium
dioxide nanofibers by coating with silver nanoparticles. ACS Appl Nano Mater 3:5743–5751
Stensberg MC, Wei Q, Mclamore ES, Porterfield DM, Wei A, Sepulveda MS (2011) Toxicological
studies on silver nanoparticles: challenges and opportunities in assessment, monitoring and
imaging. Nanomedicine 6:879–898
Stoimenov PK, Klinger RL, Marchin GL, Klabunde KJ (2002) Metal oxide nanoparticles as
bactericidal agents. Langmuir 18(17):6679–6686
Sun J, Kormakov S, Liu Y, Huang Y, Wu D, Yang Z (2018) Recent progress in metal-based
nanoparticles mediated photodynamic therapy. Molecules 23:1704–1727
Tahir K, Nazir S, Ahmad A, Li B, Khan AU, Khan ZUH, Khan FU, Khan QU, Khan A, Rahman
AU (2017) Facile and green synthesis of phytochemicals capped platinum nanoparticles and
in vitro their superior antibacterial activity. J Photochem Photobiol B Biol 166:246–251
Tiwari PM, Vig K, Dennis VA, Singh SR (2011) Functionalized gold nanoparticles and their
biomedical applications. Nano 1(1):31–63
Tiwari V, Mishra N, Gadani K, Solanki PS, Shah N, Tiwari M (2018) Mechanism of anti-bacterial
activity of zinc oxide nanoparticle against carbapenem resistant Acinetobacter baumannii. Front
Microbiol 9:1218
Tran N, Mir A, Mallik D, Sinha A, Nayar S, Webster TJ (2010) Bactericidal effect of iron oxide
nanoparticles on Staphylococcus aureus. Int J Nanomedicine 5:277
Tran PA, O’Brien-Simpson N, Reynolds EC, Pantarat N, Biswas DP, O’Connor AJ (2015) Low
cytotoxic trace element selenium nanoparticles and their differential antimicrobial properties
against S. aureus and E. coli. Nanotechnology 27(4):045101
Tsuang YH, Sun JS, Huang YC, Lu CH, Chang WHS, Wang CC (2008) Studies of photokilling of
bacteria using titanium dioxide nanoparticles. Artif Organs 32(2):167–174
Vincent M, Hartemann P, Deutsch ME (2016) Antimicrobial applications of copper. Int J Hyg
Environ Health 219:585–591
Wang W, Shang Q, Zheng W, Yu H, Feng X, Wang Z, Zhang Y, Li G (2010) A novel near-infrared
antibacterial material depending on the upconverting property of Er3+-Yb3+-Fe3 tridoped TiO2
nanopowder. J Phys Chem C 114(32):13663–13669
Wang D, Lin Z, Yao Z, Yu H (2014) Surfactants present complex joint effects on the toxicities of
metal oxide nanoparticles. Chemosphere 108:70–75
520
M. Chauhan et al.