Journal of Industrial and Engineering Chemistry, Vol.52, 349-358, August, 2017
Dimer-type heterostructure of Ag/Zn0.995Ni0.005O microspheres: Microwave-assisted synthesis and synergistic antibacterial activity
E-mail:
The dimer-type heterostructured Ag/Zn0.995Ni0.005O microspheres were prepared via two step microwave-assisted process, which exhibited stronger visible-light-activated antibacterial performance than visible-light only, ZnO/Vis, Zn0.995Ni0.005O/Vis, or AgNPs/Vis. It is attributed to not only the interaction of released metal ions with functional groups of vital enzymes and proteins, but also the collapsing force of reactive oxygen species to the cells. Photoelectrochemical measurements show that the photogenerated charges of Ag/Zn0.995Ni0.005O possess longer lifetime and higher separation resulting from the synergistic effect between Ni and Ag, which leads to its superior visible-light driven antibacterial performance. Gram-negative bacteria are more effectively restrained by Ag/Zn0.995Ni0.005O than Gram-positive bacteria because of structural difference between their cell walls.
Keywords:Zn1-xNixO;Ag nanoparticles;Dimer-type heterostructure;Synergistic antibacterial activity;Photoelectrochemical property
- Schneider J, Matsuoka M, Takeuchi M, Zhang JL, Horiuchi Y, Anpo M, Bahnemann DW, Chem. Rev., 114(19), 9919 (2014)
- Raula M, Biswas M, Mandal TK, RSC Adv., 4, 5055 (2014)
- Khanchandani S, Srivastava PK, Kumar S, Ghosh S, Ganguli AK, Inorg. Chem., 53(17), 8902 (2014)
- Huang WC, Lyu LM, Yang YC, Huang MH, J. Am. Chem. Soc., 134(2), 1261 (2012)
- Wang C, Zhou Y, Ge MY, Xu XB, Zhang ZL, Jiang JZ, J. Am. Chem. Soc., 132(1), 46 (2010)
- Hong Y, Tian CG, Jiang BJ, Wu AP, Zhang Q, Tian GH, Fu HQ, J. Mater. Chem., 1, 5700 (2013)
- Applerot G, Lipovsky A, Dror R, Perkas N, Nitzan Y, Lubart R, Gedanken A, Adv. Funct. Mater., 19(6), 842 (2009)
- Lu X, Wang G, Xie S, Shi J, Li W, Tong X, Li Y, Chem. Commun., 48, 7717 (2012)
- Xia W, Mei C, Zeng X, Fan G, Lu J, Meng X, Shen X, ACS Appl. Mater. Interfaces, 7, 11824 (2015)
- Ansari S, Khan M, Ansari M, Lee J, Cho M, J. Phys. Chem. C, 117, 27023 (2013)
- Yang Y, Li Y, Zhu L, He H, Hu L, Huang J, Hu F, He B, Ye Z, Nanoscale, 5, 10461 (2013)
- Zhou D, Kittilstved K, Chem. Commun., 52, 9101 (2016)
- Kuriakose S, Satpati B, Mohapatra S, Phys. Chem. Chem. Phys., 16, 12741 (2014)
- Yin Q, Wu W, Qiao R, Ke X, Hu Y, Li Z, RSC Adv., 6, 38653 (2016)
- Kuriakose S, Satpati B, Mohapatra S, Phys. Chem. Chem. Phys., 17, 25172 (2015)
- Shahmoradi B, Soga K, Ananda S, Somashekar R, Byrappa K, Nanoscale, 2, 1160 (2010)
- Bhirud A, Sathaye S, Waichal R, Nikam L, Kale B, Green Chem., 14, 2790 (2012)
- Yang X, Wolcott A, Wang G, Sobo A, Fitzmorris R, Qian F, Zhang J, Li Y, Nano Lett., 9, 2331 (2009)
- Hsu C, Chang S, Lin Y, Tsai S, Chen I, Chem. Commun., 28, 3571 (2005)
- Lee J, Lim H, Kang Y, Suh K, RSC Adv., 5, 104556 (2015)
- Li P, Wei Z, Wu T, Peng Q, Li YD, J. Am. Chem. Soc., 133(15), 5660 (2011)
- Kochuveedu S, Oh J, Do Y, Kim D, Chem. Eur. J., 18, 7467 (2012)
- Kochuveedu S, Jang Y, Kim D, Chem. Soc. Rev., 42, 8467 (2013)
- Zhang ZH, Hossain MF, Arakawa T, Takahashi T, J. Hazard. Mater., 176(1-3), 973 (2010)
- Linsebigler AL, Lu GQ, Yates JT, Chem. Rev., 95(3), 735 (1995)
- Tada H, Teranishi K, Inubushi Y, Ito S, Langmuir, 16(7), 3304 (2000)
- Bessekhouad Y, Robert D, Weber JV, Catal. Today, 101(3-4), 315 (2005)
- Singh S, Barick K, Bahadur D, J. Mater. Chem., 1, 3325 (2013)
- Shekofteh-Gohari M, Habibi-Yangjeh A, J. Ind. Eng. Chem., 44, 174 (2016)
- Joe W, Lee HJ, Hong UG, Ahn YS, Song CJ, Kwon BJ, Song IK, J. Ind. Eng. Chem., 18(3), 1018 (2012)
- Singh S, Barick K, Bahadur D, CrystEngComm, 15, 4631 (2013)
- Zak AK, Majid WHA, Abrishami ME, Yousefi R, Solid State Sci., 13, 251 (2011)
- Venkateswarlu K, Bose AC, Rameshbabu N, Phys. B, 405, 4256 (2010)
- Li Y, Wu T, Jiang K, Tong G, Jin K, Qian N, Zhao L, Lv T, J. Mater. Chem., 4, 7119 (2016)
- Thota S, Shim JH, Seehra MS, J. Appl. Phys., 114, 214307 (2013)
- Sasca V, Popa A, J. Appl. Phys., 114, 133503 (2013)
- Singh SD, Nandanwar V, Srivastava H, Yadav AK, Bhakar A, Sagdeo PR, Sinha AK, Ganguli T, Dalton Trans., 44, 14793 (2015)
- Kubleka P, J. Opt. Soc. Am., 38, 448 (1948)
- Guo Y, Cao X, Lan X, Zhao C, Xue X, Song Y, J. Phys. Chem., 112, 8832 (2008)
- Lu Y, Lin Y, Xie T, Shi S, Fan H, Wang D, Nanoscale, 4, 6393 (2012)
- Jang ES, Won JH, Hwang SJ, Choy JH, Adv. Mater., 18(24), 3309 (2006)
- Wang XW, Yin LC, Liu G, Wang LZ, Saito R, Lu GQM, Cheng HM, Energy Environ. Sci., 4, 3976 (2011)
- Jakani M, Campet G, Claverie J, Fichou D, Pouliquen J, Kossanyi J, J. Solid State Chem., 56, 269 (1985)
- Yin Q, Qiao R, Li Z, Zhang XL, Zhu L, J. Alloy. Compd., 618, 318 (2015)
- Joe A, Park SH, Shim KD, Kim DJ, Jhee KH, Lee HW, Heo CH, Kim HM, Jang ES, J. Ind. Eng. Chem., 45, 430 (2017)
- Han ZZ, Ren LL, Cui ZH, Chen CQ, Pan HB, Chen JZ, Appl. Catal. B: Environ., 126, 298 (2012)
- Zhou G, Xu XY, Ding T, Feng B, Bao ZJ, Hu JG, ACS Appl. Mater. Interfaces, 7, 26819 (2015)
- Zhang J, Yu JG, Jaroniec M, Gong JR, Nano Lett., 12, 4584 (2012)
- Zhang Z, Choi M, Baek M, Deng ZX, Yong KJ, ACS Appl. Mater. Interfaces, 9, 3967 (2017)
- Bell NJ, Ng YH, Du A, Coster H, Smith S, Amal R, J. Phys. Chem., 115, 6004 (2011)
- Hou Y, Zuo F, Dagg A, Feng P, Angew. Chem.-Int. Edit., 52, 1248 (2013)
- Zheng JY, Son SI, Van TK, Kang YS, RSC Adv., 5, 36307 (2015)
- Cha HG, Kang MJ, Hwang IC, Kim H, Yoon KB, Kang YS, Chem. Commun., 51, 6407 (2015)
- Pawar AU, Kim CW, Kang MJ, Kangn YS, Nano Energy, 20, 156 (2016)
- Li M, Wu W, Qiao R, Tan L, Li Z, Zhang Y, J. Alloy. Compd., 676, 113 (2016)
- Zheng YH, Zheng LR, Zhan YY, Lin XY, Zheng Q, Wei KM, Inorg. Chem., 46(17), 6980 (2007)