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Journal of Materials Science

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01-06-2011 | Review

A review on nano-TiO₂ sol–gel type syntheses and its applications

Authors: D. P. Macwan, Pragnesh N. Dave, Shalini Chaturvedi

Published in: Journal of Materials Science | Issue 11/2011

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Abstract

Nanomaterials, defined as particles ranging from 1 to 100 nm diameter, have become widely utilized because of their unique physicochemical properties. Among those nanoparticles, titanium dioxide (TiO₂) is frequently used in the production of paints, paper, plastics, welding rod-coating material, cosmetics, etc. TiO₂ is the most commonly used semiconductor photocatalyst. Among the different nanomaterials, it is the most studied. Activated by UV-A irradiation, its photocatalytic properties have been utilized in various applications. A wealth of information on TiO₂ photocatalytic in activation of bacteria has been acquired over the last 20 years. Hence, in this review article we have described synthesis methods mainly sol–gel type method like sol–gel method, ultrasonic-assisted sol–gel method, microemulsion method, colloidal synthesis, and also other method are discussed like solvo-thermal method, thermal plasma process, supersonically expanded plasma jet method, induction plasma torch, reactive plasma processing, plasma electrolytic oxidation, hydrolysis method, thermohydrolysis method, coprecipitation method, citrate–nitrate autocombustion method, etc. Also applications of TiO₂ like medical applications, environmental application, sensor application, photocatalytic applications, and also its health impact for long-term exposure are discussed.

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Li Q, Mahendra S, Lyon DY, Brunet L, Liga MV, Li D, Alvarez PJJ (2008) Water Res 42:4591

Beydoun D, Amal R, Low G, Mcevoy S (1999) J Nanoparticle Res 1:439

Blake DM, Maness PC, Huang Z, Wolfrum EJ, Huang J, Jacoby WA (1999) Sep Purif Methods 28:1

Sthathatos E, Tsiourvas D, Lianos P (1999) J Colloids Surf A 149:49

Comparelli R, Fanizza E, Curri ML, Cozzoli PD, Mascolo G, Passino R, Agostiano A (2005) Appl Catal B 55:81

Vijay M, Selvarajan V, Sreekumar KP, Yu J, Liu S, Ananthapadmanabhan PV (2009) Sol Energy Mater Sol Cells 93:1540

Seeley Z, Choi YJ, Bose S (2009) Sens Actuators B 140:98

Gianluca L, Bono A, Krishnaiah JG, Collin D (2008) J Hazard Mater 157(2–3):209

Meacock G, Taylor KDA, Knowles M, Himonides A (1997) J Sci Food Agric 73(2):221

10.

Yu H-F, Zhang Z-W, Hu F-C (2008) J Alloys Compd 465:484

11.

Carp O, Huisman CL, Reller A (2004) Progr Solid State Chem 32:33

12.

Gaya UI, Abdullah AH (2008) J Photochem Photobiol C 9:1

13.

Patil KC, Hegde MS, Rattan T, Aruna ST (2008) Chemistry of nanocrystalline materials: combustion synthesis, properties and applications. World Scientific, London, pp 179–209

14.

Gerven TV, Mul G, Moulijn J, Stankiewicz A (2007) Chem Eng Proc 46:781

15.

Li J-G, Kamiyama H, Wang X-H, Moriyoshi Y, Ishigaki T (2006) J Eur Ceram Soc 26:423

16.

Page K, Palgrave RG, Parkin IP, Wilson M, Savin SLP, Chadwick AV (2007) J Mater Chem 17(1):95

17.

Reddy MP, Venugopal A, Subrahmanyam M (2007) Water Res 41:379

18.

Rehman S, Ullah R, Butt AM, Gohar ND (2009) J Hazard Mater 170:560

19.

Nakamura I, Negishi N, Kutsuna S, Ihara T, Sugihara S, Takeuch K (2000) J Mol Catal A 161:205

20.

Ihara T, Miyoshi M, Iriyama Y, Matsumoto O, Sugihara S (2003) Appl Catal B 42:403

21.

Ghorai TK, Dhak D, Biswas SK, Dalai S, Pramanik P (2007) J Mol Catal A 273:224

22.

Babelon P, Dequidt AS, Mostefa-Sba H, Bourgeois S, Sibillot P, Sacilotti M (1998) Thin Solid Films 322:63

23.

Kim B-H, Lee J-Y, Choa Y-H, Higuchi M, Mizutani N (2004) Mater Sci Eng B 107:289

24.

Okuyama K, Shimada M, Fujimoto T, Maekawa T, Nakaso K, Seto T (1998) J Aerosol Sci 29(1):S907

25.

Gu D-E, Yang B-C, Hu Y-D (2008) Catal Commun 9:1472

26.

Su C, Hong BY, Tseng CM (2004) Catal Today 96:119

27.

Sun J, Wang X, Sun J, Sun R, Sun S, Qiao L (2006) J Mol Catal A 260:241

28.

Rengaraj S, Li XZ, Tanner PA, Pan ZF, Pang GKH (2006) J Mol Catal A 247:36

29.

Yu H, Zheng X, Yin Z, Tao F, Fang B, Hou K (2007) Chin J Chem Eng 15(6):802

30.

Liu S, Yang J-H, Choy J-H (2006) J Photochem Photobiol A 179:75

31.

Ding X, An T, Li G, Zhang S, Chen J, Yuan J, Zhao H, Chen H, Sheng G, Fu J (2008) J Colloid Interface Sci 320(2):501

32.

Li Y, Peng S, Jiang F, Lu G, Li S (2007) J Serb Chem Soc 72(4):393

33.

Liao DL, Badour CA, Liao BQ (2008) J Photochem Photobiol A 194:11

34.

Rengaraj S, Li XZ (2006) Int J Environ Pollut 27(1/2/3):20

35.

Xu A-W, Gao Y, Liu H-Q (2002) J Catal 207:151

36.

Liu G, Zhang X, Xu Y, Niu X, Zheng L, Ding X (2005) Chemosphere 59:1367

37.

Xin B, Wang P, Ding D, Liu J, Ren Z, Fu H (2008) Appl Surf Sci 25(4):2569

38.

Bu S, Jin Z, Liu X, Yin T, Cheng Z (2006) J Mater Sci 41(7):2067. doi:10.1007/s10853-006-8000-y

39.

Colmenares JC, Aramendia MA, Marinas A, Marinas JM, Urbano FJ (2006) Appl Catal A 306:120

40.

Campostrini R, Ischia M, Palmisano L (2003) J Therm Anal Calorim 71(3):997

41.

Campostrini R, Ischia M, Palmisano L (2003) J Therm Anal Calorim 71(3):1011

42.

Campostrini R, Ischia M, Palmisano L (2004) J Therm Anal Calorim 75(3):13

43.

Campostrini R, Ischia M, Palmisano L (2004) J Therm Anal Calorim 75(1):25

44.

Crisan M, Braileanu A, Raileanu M, Zaharescu M, Crisan D, Dragan N, Anastasescu M, Ianculescu A, Nitoi I, Marinescu VE, Hodorogea SM (2008) J Non-Cryst Solids 354:705

45.

Fan X, Chen X, Zhu S, Li Z, Yu T, Ye J, Zou Z (2008) J Mol Catal A 284:155

46.

Gombac V, Rogatis LD, Gasparotto A, Vicario G, Montini T, Barreca D, Balducci G, Fornasiero P, Tondello E, Graziani M (2007) Chem Phys 339:111

47.

Li XZ, Li FB, Yang CL, Ge WK (2001) J Photochem Photobiol A 141:209

48.

Li Y, White TJ, Lim SH (2004) J Solid State Chem 177(4–5):1372

49.

Peng A, Xie E, Jia C, Jiang R, Lin H (2005) Mater Lett 59(29–30):3866

50.

Saif M, Abdel-Mottaleb MSA (2007) Inorg Chim Acta 360:2863

51.

Shi J-W, Zheng J-T, Hu Y, Zhao Y-C (2007) Mater Chem Phys 106:247

52.

Sivakumar S, Krishna PP, Makundan P, Warrier KGK (2002) Mater Lett 57(2):330

53.

Srinivasan SS, Wade SJ, Stefanakos EK, Goswami Y (2006) J Alloys Compd 424:322

54.

Stir M, Nicula R, Burkel E (2006) J Eur Ceram Soc 26:1547

55.

Watson SS, Beydoun D, Scott JA, Amal R (2003) Chem Eng J 95(1):213

56.

Wilke K, Breuer HD (1999) J Photochem Photobiol A 121:49

57.

Xu W, Hu W, Li M, Wen C (2006) Mater Lett 60(13–14):1575

58.

Yang Y, Li X-J, Chen J-T, Wang L-Y (2004) J Photochem Photobiol A 163:517

59.

Zaleska A, Sobczak JW, Grabowska E (2008) J Hupka Appl Catal B 78:92

60.

Zhang X, Liu Q (2008) Mater Lett 62:2589

61.

Peng F, Cai L, Huang L, Yu H, Wang H (2008) J Phys Chem Solids 69(7):1657

62.

Peng F, Cai L, Huang L, Yu H, Wang H (2008) J Solid State Chem 181:130

63.

Feng X, Wang Q, Wang G, Qiu F (2006) Chin J Catal 27(3):195

64.

Wang F, Shi Z, Gong F, Jiu J, Adachi M (2007) Chin J Chem Eng 15(5):754

65.

Zhiyu W, Haifeng C, Peisong T, Weiping M, Fuan Z, Guodong Q, Xianping F (2006) Colloids Surf A 289:207

66.

Zhu J, Deng Z, Chen F, Zhang J, Chen H, Anpo M, Huang J, Zhang L (2006) Appl Catal B 62:329

67.

Bettinelli M, Dallacasa V, Falcomer D, Fornasiero P, Gombac V, Montini T, Romano L, Speghini A (2007) J Hazard Mater 146:529

68.

Liu C, Tanga X, Moa C, Qiang Z (2008) J Solid State Chem 181(4):913

69.

Tanaka K, Hisanaga T, Harada K (1989) J Photochem Photobiol A 48:155

70.

Horikawa T, Katoh M, Tomida T (2008) Microporous Mesoporous Mater 110:397

71.

Chen L-C, Huang C-M, Tsai F-R (2007) J Mol Catal A 265:133

72.

Huang M, Xu C, Wu Z, Huang Y, Lin J, Wu J (2008) Dyes Pigm 77:327

73.

Sun J, Qiao L, Sun S, Wang G (2008) J Hazard Mater 155:312

74.

Lee A-C, Lin R-H, Yang C-Y, Lin M-H, Wang W-Y (2007) Mater Chem Phys 109(2–3):275

75.

Jeon MS, Yoon WS, Joo H, Lee TK, Lee H (2000) Appl Surf Sci 165:209

76.

Oh SM, Ishigaki T (2004) Thin Solid Films 457:186

77.

Kakati M, Bora B, Sarma S, Sripathi T, Deshpande U, Dubey A, Ghosh G, Das AK (2008) Vacuum 82:833

78.

Kitazawa S (2004) Jpn J Appl Phys 43:6335

79.

Ohshima T, Nakashima S, Ueda T, Kawasaki H, Suda Y, Ebihara K (2006) Thin Solid Films 106:506

80.

Thareja RK, Sharma AK (2006) Laser Part Beams 24:311

81.

Belkind A, Zhu W, Lopez J, Becker K (2006) Plasma Sources Sci Technol 15:S17

82.

Matsushima Y, Yamazaki T, Maeda K, Noma T, Suzuki T (2006) J Am Ceram Soc 89(3):799

83.

Nakamura M, Kato S, Aoki T, Sirghi L, Hatanaka Y (2001) Thin Solid Films 401:138

84.

Borras A, Cotrino J, Gonzalez-Elipe AR (2007) J Electrochem Soc 154:152

85.

Li C-J, Yang G-J, Wang Z (2003) Mater Lett 57:2130

86.

Jang HD, Kim S-K (2001) Mater Res Bull 36:627

87.

Tung WS, Daoud WA (2008) J Colloid Interface Sci 326:283

88.

Körösi L, Dékány I (2006) Colloids Surf A 280:146

89.

Suslick KS (1990) Science 247:1439

90.

Koda S, Tanaka K, Sakamoto H, Matsuoka T, Nomura H (2004) J Phys Chem A 108:11609

91.

Ramakrishna G, Singh AK, Palit DP, Ghosh HN (2004) J Phys Chem B 108:4775

92.

Neppolian B, Jung H, Choi H, Lee JH, Kang JW (2002) Water Res 36:4699

93.

Neppolian B, Park JS, Choi H (2004) Ultrason Sonochem 11:273

94.

Koda S, Kimura T, Kondo T, Mitome H (2003) Ultrason Sonochem 10(3):149

95.

Neppolian B, Wang Q, Jung H, Choi H (2008) Ultrason Sonochem 15(4):649

96.

Hong S-S, Lee MS, Hwang H-S, Lim K-T, Park S-S, Ju C-S, Lee G-D (2003) Sol Energy Mater Sol Cells 80(3):273

97.

Mejiá MI, Mariń JM, Restrepo G, Pulgariń C, Mielczarski E, Mielczarski J, Arroyo Y, Lavanchy J-C, Kiwi J (2009) Appl Catal B 91:481

98.

Payakgul W, Mekasuwandumrong O, Pavarajarn V, Praserthdam P (2005) Ceram Int 31:391

99.

Supphasrirongjaroen P, Praserthdam P, Panpranot J, Na-Ranong D, Mekasuwandumrong O (2008) Chem Eng J 138:622

100.

Kang M, Lee S-Y, Chung C-H, Cho SM, Han GY, Kim B-W, Yoon KJ (2001) J Photochem Photobiol A 144:185

101.

Kang M, Ko Y-R, Jeon M-K, Lee S-C, Choung S-J, Park J-Y, Sung K, Choi S-H (2005) J Photochem Photobiol A 173:128

102.

Ku Y, Ma C, Shen Y (2001) Appl Catal B 34:181

103.

Dong Y, Bai Z, Liu R, Zhu T (2007) Catal Today 126:320

104.

Leea J-E, Ohb S-M, Parka D-W (2004) Thin Solid Films 457:230

105.

Kakati M, Bora B, Deshpande UP, Phase DM, Sathe V, Lalla NP, Shripathi T, Sarma S, Joshi NK, Das AK (2009) Thin Solid Films 518(1/2):84

106.

Liu B, Torimoto T, Yoneyama H (1998) J Photochem Photobiol A 115:227

107.

Kasuga T, Hiramatsu M, Hirano M, Hosono A, Oyamada K (1997) J Mater Res 12(3):607

108.

Zhu Y, Ding C (2000) J Eur Ceram Soc 20(2):127

109.

Matin N, Rousselot C, Rondot D, Palmino F, Mercier R (1997) Thin Solid Films 300(1/2):113

110.

Mandl S, Thorwarth G, Schreck M, Stritzker B, Rauschenbach B (2000) Surf Coat Technol 125(1–3):84

111.

Li Y-L, Ishigaki T (2002) Thin Solid Films 407(1–2):79

112.

Padmanabhan PVA, Sreekumar KP, Thiyagarajan TK, Satpute RU, Bhanumurthy K, Sengupta P, Dey GK, Warrier KGK (2006) Vaccum 80(11–12):1252

113.

Wei D, Zhou Y, Jia D, Wang Y (2008) Appl Surf Sci 254:1775

114.

Zhu YC, Huang MH, Xia JY, Ding CX (1997) J Korean Vac Soc 6(S1):23

115.

Powder Diffraction File, No. 18-1402 (1983) Inorganic volume, no. PDIS-22IRB, published by the JCPDS International Center for Diffraction Data, 1601 Park Lane, Swarthmore, Pennsylvania, 19081 USA

116.

Zhu YC, Ding CX (1999) Nanostrut Mater 11(3):319

117.

Kosmulski M, Mczkaa E, Januszc W, Rosenholmb JB (2002) Adv Colloid Interface Sci 250(1):99

118.

Perego C, Revel R, Durupthy O, Cassaignon S, Jolivet JP (2010) Solid State Sci 12(6):989

119.

Imagawa H, Tanaka T, Takahashi N, Matsunaga S, Suda A, Shinjoh H (2007) J Catal 251:315

120.

Pechini M (1967) U.S. Patent #3,330,697

121.

Choi Y, Seeley Z, Bandyopadhyay A, Bose S, Akbar S (2007) Sens Actuators B 124:111

122.

Uddin MJ, Cesano F, Bonino F, Bordiga S, Spoto G, Scarano D, Zecchina A (2007) J Photochem Photobiol A 189(2):286

123.

Uddin MJ, Cesano F, Scarano D, Bonino F, Agostini G, Spoto G, Bordiga S, Zecchina A (2008) J Photochem Photobiol A 199(1):64

124.

Liu Y, Liang P, Guo L (2005) Talanta 68:25

125.

Kalfa OM, ınkaya OY, Turker AR (2009) J Hazard Mater 166:455

126.

Yang WE, Hsu ML, Lin MC, Chen ZH, Chen LK, Huang HH (2009) J Alloys Compd 479:642

127.

Song M, Pan C, Chen C, Li J, Wang X, Gu Z (2008) Appl Surf Sci 255:610

128.

Zhang Z, Yuan Y, Fang Y, Liang L, Ding H, Jin L (2007) Talanta 73(3):523

129.

Kuo CN, Chen HF, Lin JN, Wan BZ (2007) Catal Today 122:270

130.

Chen J, Liu M, Zhang L, Zhang J, Jin L (2003) Water Res 37:3815

131.

Yu H, Zhang K, Rossi C (2007) J Photochem Photobiol A 188:65

132.

Zheng J, Li G, Ma X, Wang Y, Wu G, Cheng Y (2008) Sens Actuators B 133:374

133.

Bozzi A, Yuranova T, Guasaquillo LD, Kiwi J (2005) J Photochem Photobiol A 174:156

134.

Meen TH, Water W, Chen WR, Chao SM, Ji LW, Huang CJ (2009) J Phys Chem Solids 70:472

135.

Radhakrishnan S, Siju CR, Mahanta D, Patil S, Madras G (2009) Electrochim Acta 54:1249

136.

Huang S, Chueh PJ, Lin YW, Shih TS, Chuang SM (2009) Toxicol Appl Pharmacol 241(2):182

Title: A review on nano-TiO2 sol–gel type syntheses and its applications
Authors: D. P. Macwan
Pragnesh N. Dave
Shalini Chaturvedi
Publication date: 01-06-2011
Publisher: Springer US
Published in: Journal of Materials Science / Issue 11/2011
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-011-5378-y

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