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Received June 25, 2015
Accepted April 30, 2016
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Developments in photocatalytic antibacterial activity of nano TiO2: A review
1Department of Materials Science & Engineering, University of Seoul, Seoul 02504, Korea 2Center for Interdisciplinary Research, D.Y. Patil University, Kolhapur- 416006, India 3, Korea 4Center for Interdisciplinary Research, D.Y. Patil University, Kolhapur- 416006, India, Korea
Korean Journal of Chemical Engineering, July 2016, 33(7), 1989-1998(10), 10.1007/s11814-016-0118-2
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Abstract
TiO2, which is one of the most explored materials, has emerged as an excellent photocatalyst material for environmental and energy fields, including air and water purification, self-cleaning surfaces, antibacterial and water splitting. This review summarizes recent research developments of TiO2-based photocatalyst used for photocatalytic antibacterial applications. Several strategies to enhance the efficiency of TiO2 photocatalyst are discussed, including doping with metal ions, noble metals, non-metals, and coupling with other materials. The mechanism of photocatalytic antibacterial activity in the presence of nano-sized TiO2 is also discussed. The modified TiO2 photocatalyst significantly inhibits the growth of bacterial cells in response to visible light illumination. TiO2 photocatalysis appears to be promising as a route of advanced oxidation process for environmental remediation.
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Choi WY, Termin A, Hoffmann MR, J. Phys. Chem., 98(51), 13669 (1994)
Gupta SM, Tripathi M, Chin. Sci. Bull., 56, 1639 (2011)
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Yadav HM, Otari SV, Bohara RA, Mali SS, Pawar SH, Delekar SD, J. Photochem. Photobiol. A-Chem., 294, 130 (2014)
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Zhang Q, Sun C, Zhao Y, Zhou S, Hu X, Chen P, Environ. Sci. Technol., 44, 8270 (2010)
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Patte HT, Environ. Toxicol. Chem., 18, 89 (1999)
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Li J, Zhou H, Qian S, Liu Z, Feng J, Jin P, Liu X, Appl. Phys. Lett., 104, 261110 (2014)
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Mei P, Henderson M, Kassiba A, Gibaud A, J. Phys. Chem. Solids, 71, 1 (2010)
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Soni SS, Henderson MJ, Bardeau JF, Gibaud A, Adv. Mater., 20(8), 1493 (2008)
Soni SS, Dave GS, Henderson MJ, Gibaud A, Thin Solid Films, 531, 559 (2013)
Ananpattarachai J, Boonto Y, Kajitvichyanukul P, Environ. Sci. Pollut. Res., 23, 4111 (2015)
Yu B, Lau WM, Yang J, Nanotechnology, 24, 335705 (2013)
Cheng CL, Sun DS, Chu WC, Tseng YH, Ho HC, Wang JB, Chung PH, Chen JH, Tsai PJ, Lin NT, Yu MS, Chang HH, J. Biomed. Sci., 16, 7 (2009)
Shim J, Seo YS, Oh BT, Cho M, J. Hazard. Mater., 306, 133 (2016)
Mills A, Le Hunte S, J. Photochem. Photobiol. A-Chem., 108, 1 (1997)
Kang Q, Lu QZ, Liu SH, Yang LX, Wen LF, Luo SL, Cai QY, Biomaterials, 31, 3317 (2010)
Hamal DB, Haggstrom JA, Marchin GL, Ikenberry MA, Hohn K, Klabunde KJ, Langmuir, 26(4), 2805 (2010)
Akhavan O, Abdolahad M, Abdi Y, Mohajerzadeh S, Carbon, 47, 3280 (2009)
Akhavan O, Azimirad R, Safa S, Larijani MM, J. Mater. Chem., 20, 7386 (2010)
Yamauchi K, Yao Y, Ochiai T, Sakai M, Kubota Y, Yamauchi G, J. Nanotechnol., 2011, 1 (2011)
Chen M, Zhang F, Oh W, Bull. Mat. Sci., 34, 835 (2011)
Yeh N, Lee YC, Chang CY, Cheng TC, Thin Solid Films, 549, 93 (2013)
Cheng TC, Yao KS, Yeh N, Chang CI, Hsu HC, Gonzalez F, Chang CY, Thin Solid Films, 519(15), 5002 (2011)
Janpetch N, Vanichvattanadecha C, Rujiravanit R, Cellulose, 22, 3321 (2015)
Kangwansupamonkon W, Lauruengtana V, Surassmo S, Ruktanonchai U, Nanomed-Nanotechnol., 5, 240 (2009)
Chen S, Guo Y, Chen S, Yu H, Ge Z, Zhang X, Zhang P, Tang J, J. Mater. Chem., 22, 9092 (2012)
Rana S, Rawat J, Sorensson MM, Misra RDK, Acta Biomater., 2, 421 (2006)
Swetha S, Singh MK, Minchitha KU, Balakrishna RG, Photochem. Photobiol., 88, 414 (2012)
Pal A, Pehkonen SO, Yu LE, Ray MB, J. Photochem. Photobiol. A-Chem., 186, 335 (2007)
Skorb EV, Antonouskaya LI, Belyasova NA, Shchukin DG, Mohwald H, Sviridov DV, Appl. Catal. B: Environ., 84(1-2), 94 (2008)
Caballero L, Whitehead KA, Allen NS, Verran J, J. Photochem. Photobiol. A-Chem., 202, 92 (2009)
Blake DM, Maness PC, Huang Z, Wolfrum EJ, Huang J, Jacoby WA, Sep. Purif. Rev., 28, 1 (1999)
Cavalieri SJ, Manual of Antimicrobial Susceptibility Testing, American Society for Microbiology (2005).
Ochiai T, Fukuda T, Nakata K, Murakami T, Tryk DA, Koide Y, Fujishima A, J. Appl. Electrochem., 40(10), 1737 (2010)
Feitz AJ, Waite TD, Jones GJ, Boyden BH, Orr PT, Environ. Sci. Technol., 33, 243 (1999)
Li Q, Mahendra S, Lyon DY, Brunet L, Liga MV, Li D, Alvarez PJJ, Water Res., 42, 4591 (2008)
Wu B, Huang R, Sahu M, Feng X, Biswas P, Tang YJ, Sci. Total Environ., 408, 1755 (2010)
Zheng L, Zhang W, Xiao X, Korean J. Chem. Eng., 33, 107 (2015)
Olya ME, Pirkarami A, Korean J. Chem. Eng., 32(8), 1586 (2015)
Esfahani IJ, Rashidi J, Ifaei P, Yoo CK, Korean J. Chem. Eng., 33(2), 351 (2016)
Qu X, Alvarez PJJ, Li Q, Water Res., 47, 3931 (2013)
Xiong Z, Ma J, Ng WJ, Waite TD, Zhao XS, Water Res., 45, 2095 (2011)
Lazar M, Varghese S, Nair S, Catalysts, 2, 572 (2012)
Zhang D, Song X, Zhang R, Zhang M, Liu F, Eur. J. Inorg. Chem., 2005, 1643 (2005)
van Grieken R, Marugan J, Sordo C, Martinez P, Pablos C, Appl. Catal. B: Environ., 93(1-2), 112 (2009)
Chai YS, Lee JC, Kim BW, Korean J. Chem. Eng., 17(6), 633 (2000)
Sun DD, Tay JH, Tan KM, Water Res., 37, 3452 (2003)
Azimzadehirani M, Elahifard M, Haghighi S, Gholami M, Photochem. Photobiol. Sci., 12, 1787 (2013)
Zuccheri T, Colonna M, Stefanini I, Santini C, Gioia D, Materials, 6, 3270 (2013)
Qi K, Xin JH, ACS Appl. Mater. Interfaces, 2, 3479 (2010)
Hua D, Cheuk K, Wei-ning Z, Chen W, Chang-fa X, Trans. Nonferrous Met. Soc. China, 17, s700-3 (2007)
Martinez-Gutierrez F, Olive PL, Banuelos A, Orrantia E, Nino N, Sanchez EM, Ruiz F, Bach H, Av-Gay Y, Nanomed-Nanotechnol, 6, 681 (2010)
Hu H, Zhang W, Qiao Y, Jiang X, Liu X, Ding C, Acta Biomater., 8, 904 (2012)
Bodaghi H, Mostofi Y, Oromiehie A, Zamani Z, Ghanbarzadeh B, Costa C, Conte A, Del Nobile MA, Food Sci. Technol-LEB, 50, 702 (2013)
Chawengkijwanich C, Hayata Y, Int. J. Food Microbiol., 123, 288 (2008)