High Purity Anatase TiO<sub>2</sub> Nanocrystals:  Near Room-Temperature Synthesis, Grain Growth Kinetics, and Surface Hydration Chemistry

Li, Guangshe; Li, Liping; Boerio‐Goates, Juliana; Woodfield, Brian F.

doi:10.1021/ja050517g

Cited by 547 publications

(461 citation statements)

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“…The kinetics of these processes typically are considered in terms of temperature and time. In terms of the former, pure bulk anatase is considered widely to begin to transform irreversibly to rutile in air at *600°C [6,66,99]; however, the reported transition temperatures vary in the range 400-1200°C [42,66,[108][109][110][111][112] owing to the use of different methods of determining the transition temperatures, raw materials, and processing methods. The anatase to rutile transformation is not instantaneous; it is timedependent because it is reconstructive [2,109,113].…”

Section: Anatase To Rutile Transformationmentioning

confidence: 99%

“…Excluding studies which used titania of unusually small particle size or long soak times, and studies which did not use onset temperatures as the defined transition These data indicate that there remains some uncertainty about the energetics of the phase transformation Appearance of detectable rutile peak by XRD [99] 2007 (900) Sol-gel synthesised powder Reported value: apex of broad DTA peak (data not shown) [158] a Data in parenthesis do not correspond to the onset of the transformation temperatures, it can be seen that the reported transition onset temperatures, as determined by XRD, appear to converge around 600°C. Although it is difficult to ascertain the intrinsic behaviour of titania, this is accepted to be the region of the onset temperature of the anatase to rutile transformation in bulk pure anatase in air [2,7,123,154].…”

Section: Stability Of the Tio 2 Phasesmentioning

confidence: 99%

“…When titanium alkoxides undergo hydrolysis, the result is agglomorated titanium hydroxide groups which are often in the form of white amorphous precipitates [46,95,204]. Such solutions also can be synthesised using TiCl 4 [96,99,103,104,202] which can result in crystalline phases of high purity. The use of a low pH limits condensation reactions [197], imposes a repulsive charge and limits the size of these precipitates resulting in the presence of free [Ti(OH) x (OH 2 ) 6-x ] (4-x)?…”

Section: Formation Of Crystalline Tio 2 From Solutionsmentioning

confidence: 99%

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Review of the anatase to rutile phase transformation

2010

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Titanium dioxide, TiO 2 , is an important photocatalytic material that exists as two main polymorphs, anatase and rutile. The presence of either or both of these phases impacts on the photocatalytic performance of the material. The present work reviews the anatase to rutile phase transformation. The synthesis and properties of anatase and rutile are examined, followed by a discussion of the thermodynamics of the phase transformation and the factors affecting its observation. A comprehensive analysis of the reported effects of dopants on the anatase to rutile phase transformation and the mechanisms by which these effects are brought about is presented in this review, yielding a plot of the cationic radius versus the valence characterised by a distinct boundary between inhibitors and promoters of the phase transformation. Further, the likely effects of dopant elements, including those for which experimental data are unavailable, on the phase transformation are deduced and presented on the basis of this analysis.

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Section: Anatase To Rutile Transformationmentioning

confidence: 99%

Section: Stability Of the Tio 2 Phasesmentioning

confidence: 99%

Section: Formation Of Crystalline Tio 2 From Solutionsmentioning

confidence: 99%

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Review of the anatase to rutile phase transformation

2010

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“…An interesting phenomenon has been observed in anatase TiO 2 . In some cases, contraction of the lattice parameter when reducing the particle size has been observed [39][40][41][42][43], which is similar to the behavior of metals. In other cases the antithetical phenomenon was investigated, where expansion of the lattice parameter was observed when reducing the material size [44].…”

Section: Introductionmentioning

confidence: 86%

Thickness Effect on Fluctuation of Electron States in Thin Film and Implications for Lattice Constant Change Due to Size Reduction

Amalia

Viridi

Abdullah

2017

J. Math. Fund. Sci.

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Abstract. We propose a model for predicting the fluctuation of electron states in thin films as a function of film thickness. The model is derived based on the assumption of the existence of potential barrier fluctuation on the film surface. Since the wave functions of electrons in the film are determined by the boundary conditions of the potential on the film surface, the potential fluctuation on the film surface implies fluctuation of the electron states in the film. The model was extended to predict the effect of size on the lattice constant of thin films or nanoparticles.

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“…The main toxicity of these nanoparticles was shown to be due to surface impurities, 87 which often occur as a result of the synthesis process. The use of titanium alkoxides as synthesis precursors, [88][89][90][91] as well as the use of acetic acid, 89 alcohol, 92 oils, 93 and other organic solvents 88,91,92 as reaction media are examples of such sources. Post-synthetic stabilization of nanoparticles through the use of surfactants also introduces extraneous material which may interfere with the accurate observation of the toxicity phenomenon.…”

Section: Solubility and Surface Impuritiesmentioning

confidence: 99%

Toxicity Associated with the Photo Catalytic and Photo Stable Forms of Titanium Dioxide Nanoparticles Used in Sunscreen lotion

Pulvin¹

2015

MOJT

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Abbreviations: IARC, international agency for research on cancer; UV, ultraviolet; QD, quantum dot; ROS, reactive oxygen species; PBS, phosphate buffered saline; CB, conduction band IntroductionThe properties of materials change as their size approaches the nano particle scale, which is generally considered to be that with at least one dimension of 100nm or less. The toxicity of nanoparticles has been linked to such characteristics as elemental composition, charge, shape, Crystallinity, surface area, solubility and surface chemistry/ derivatization. [1][2][3][4][5][6] Understanding the nano particle-cell interaction is thought to be critical for the safe development of nano materials. 7 It seems unlikely that the potential toxicity of nanoparticles and the underlying mechanisms can be predicted or explained by any single unifying concept.This review is focused on Titania (TiO 2 ) for which there is substantial interest in the chemical, biological, and industrial worlds because of its fascinating and useful physicochemical properties. Currently, information describing the relative health and environmental risks associated with nano-TiO 2 is severely lacking. Only recently, critical questions regarding the potential human health and environmental impact of nano-TiO 2 have been raised. [8][9][10][11] TiO 2 particles have long been considered to pose little risk to respiratory health because they are both chemically and thermally stable. 12 However, TiO 2 is classified as a Group 2B carcinogen by the International Agency for Research on Cancer (IARC) based on the findings of lung tumor induction in female rats. 13,14 Nano-TiO 2 is attractive for use in a large number of applications based on its unique optical and photo catalytic properties, tunable band gap, thermal stability, chemical resistance and hardness.15Because of the relatively large band-gap, the particles absorb the higher-energy (shorter wavelength) ultraviolet radiation making it a useful constituent in sunscreen products. TiO 2 photo catalysis is widely used in the fields of wastewater treatment, 16 sterilization, 17 self-cleaning, 18 hydrogen evolution, 19 and photoelectron chemical conversion. 20 Normally, TiO 2 can only be excited with ultraviolet (UV) light because of its wide band gap, 21 although this is considered a drawback when photo catalytic conversion is desired under visible light. The crystalline structure is the major factor determining the band gap, but secondary factors include the particle size and the presence of defects (physical or chemical). 22,23 A large surface-tomass ratio of the nanoparticles helps to promote catalytic reactions, and increases their ability to absorb and carry other compounds. Their surface reactivity originates from quantum phenomena that can make nano-TiO 2 seemingly unpredictable. 24Engineered nano-TiO 2 is designed to impart specific characteristics that vary according to their use. Aside from unique nanoscale properties (size, Crystallinity, reactivity, and thermodynamics), nanoTiO 2 may be funct...

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High Purity Anatase TiO₂ Nanocrystals: Near Room-Temperature Synthesis, Grain Growth Kinetics, and Surface Hydration Chemistry

Cited by 547 publications

References 60 publications

Review of the anatase to rutile phase transformation

Review of the anatase to rutile phase transformation

Thickness Effect on Fluctuation of Electron States in Thin Film and Implications for Lattice Constant Change Due to Size Reduction

Toxicity Associated with the Photo Catalytic and Photo Stable Forms of Titanium Dioxide Nanoparticles Used in Sunscreen lotion

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High Purity Anatase TiO2 Nanocrystals: Near Room-Temperature Synthesis, Grain Growth Kinetics, and Surface Hydration Chemistry

Cited by 547 publications

References 60 publications

Review of the anatase to rutile phase transformation

Review of the anatase to rutile phase transformation

Thickness Effect on Fluctuation of Electron States in Thin Film and Implications for Lattice Constant Change Due to Size Reduction

Toxicity Associated with the Photo Catalytic and Photo Stable Forms of Titanium Dioxide Nanoparticles Used in Sunscreen lotion

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High Purity Anatase TiO₂ Nanocrystals: Near Room-Temperature Synthesis, Grain Growth Kinetics, and Surface Hydration Chemistry