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

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 (TiO 2 ) is frequently used in the production of paints, paper, plastics, welding rod-coating material, c... Full description

Journal Title: Journal of materials science 2011, Vol.46 (11), p.3669-3686
Main Author: Macwan, D. P
Other Authors: Dave, Pragnesh N , Chaturvedi, Shalini
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Boston: Springer US
ID: ISSN: 0022-2461
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recordid: cdi_proquest_miscellaneous_907933075
title: A review on nano-TiO2 sol–gel type syntheses and its applications
format: Article
creator:
  • Macwan, D. P
  • Dave, Pragnesh N
  • Chaturvedi, Shalini
subjects:
  • Bacteria
  • Biocompatibility
  • Characterization and Evaluation of Materials
  • Chemistry and Materials Science
  • Classical Mechanics
  • Cosmetics
  • Crystallography and Scattering Methods
  • general
  • Materials Science
  • Nanomaterials
  • Nanoparticles
  • Nanostructure
  • Oxidation
  • Painting
  • Photocatalysis
  • Plasma
  • Plasma jets
  • Plasma processing
  • Polymer Sciences
  • Polymers
  • Protective coatings
  • Review
  • Semiconductors
  • Sol-gel processes
  • Solid Mechanics
  • Surgical implants
  • Synthesis
  • Thermal plasmas
  • Titanium dioxide
  • Ultrasonic testing
  • Welding rods
ispartof: Journal of materials science, 2011, Vol.46 (11), p.3669-3686
description: 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 (TiO 2 ) is frequently used in the production of paints, paper, plastics, welding rod-coating material, cosmetics, etc. TiO 2 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 TiO 2 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 TiO 2 like medical applications, environmental application, sensor application, photocatalytic applications, and also its health impact for long-term exposure are discussed.
language: eng
source:
identifier: ISSN: 0022-2461
fulltext: no_fulltext
issn:
  • 0022-2461
  • 1573-4803
url: Link


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descriptionNanomaterials, 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 (TiO 2 ) is frequently used in the production of paints, paper, plastics, welding rod-coating material, cosmetics, etc. TiO 2 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 TiO 2 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 TiO 2 like medical applications, environmental application, sensor application, photocatalytic applications, and also its health impact for long-term exposure are discussed.
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subjectBacteria ; Biocompatibility ; Characterization and Evaluation of Materials ; Chemistry and Materials Science ; Classical Mechanics ; Cosmetics ; Crystallography and Scattering Methods ; general ; Materials Science ; Nanomaterials ; Nanoparticles ; Nanostructure ; Oxidation ; Painting ; Photocatalysis ; Plasma ; Plasma jets ; Plasma processing ; Polymer Sciences ; Polymers ; Protective coatings ; Review ; Semiconductors ; Sol-gel processes ; Solid Mechanics ; Surgical implants ; Synthesis ; Thermal plasmas ; Titanium dioxide ; Ultrasonic testing ; Welding rods
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descriptionNanomaterials, 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 (TiO 2 ) is frequently used in the production of paints, paper, plastics, welding rod-coating material, cosmetics, etc. TiO 2 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 TiO 2 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 TiO 2 like medical applications, environmental application, sensor application, photocatalytic applications, and also its health impact for long-term exposure are discussed.
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abstractNanomaterials, 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 (TiO 2 ) is frequently used in the production of paints, paper, plastics, welding rod-coating material, cosmetics, etc. TiO 2 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 TiO 2 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 TiO 2 like medical applications, environmental application, sensor application, photocatalytic applications, and also its health impact for long-term exposure are discussed.
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