Low temperature crystallisation of mesoporous TiO2

Kohn, Peter; Pathak, Sandeep; Stefik, Morgan; Ducati, Caterina; Wiesner, Ulrich; Steiner, Ullrich; Guldin, Stefan

doi:10.1039/c3nr03009a

Cited by 19 publications

(29 citation statements)

References 45 publications

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“…The presence of seed reduced the crystallization temperature from 127.2°C for the powder mixtures without the seed to 126.5 and 122.4°C when 5 and 10 wt.% seed were added, respectively. This temperature reduction is rather moderate when compared to that reported by Xie et al [16] and Kohl et al [17] in their annealed amorphous TiO 2 , revealing that the presence of seed particles played only a minor role in our solvothermal crystallization of TiO 2 . This difference is likely to stem from the relatively quick liquid transportation involved in the solvothermal treatment, which provides an enhanced atomic transportation than that of the diffusion-controlled annealing crystallization in solid particles, leading to the difference in crystallization temperature.…”

Section: Methodscontrasting

confidence: 64%

“…They attributed the seeded crystallization to the formation of fortuitous nuclei when the seed nanoparticles were in contact with the amorphous ones. Kohl et al [17] also reported an enhanced anatase nucleation along with a pronounced grain growth by the incorporation of crystalline TiO 2 seed. In this study, we aim to address the relative importance between the amorphous-to-anatase transformation and the grain growth of anatase TiO 2 .…”

Section: Introductionmentioning

confidence: 92%

“…In comparison, phase transformation from the amorphous TiO 2 to the crystalline or partially crystalline, anatase nano-framework in solutions has received less attention [11][12][13], despite a clear importance of preparing phase-pure anatase nanocrystals at a favorably reduced temperature together with a tailored pore/grain morphology from both technological and environmental viewpoints [14,15]. Use of crystalline seed to facilitate the crystallization of anatase TiO 2 from the amorphous phase in particular has been carried out when nanoparticles [16][17][18][19][20][21], nanotapes/ nanowires [22,23], and thin films [24][25][26] are of interest. Effect of the TiO 2 seeding to the crystallization temperature varies yet considerably, resulting primarily from the interplay between the crystallization and grain growth of the anatase phase in the presence of liquid solution or air atmosphere.…”

Section: Introductionmentioning

confidence: 99%

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Effect of seed particles on crystallization and crystallite size of anatase TiO2 nanocrystals by solvothermal treatment

Tseng

Kao

2015

Advanced Powder Technology

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Section: Methodscontrasting

confidence: 64%

Section: Introductionmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

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Effect of seed particles on crystallization and crystallite size of anatase TiO2 nanocrystals by solvothermal treatment

Tseng

Kao

2015

Advanced Powder Technology

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“…34,35 TiO 2 nanocrystals were synthesized via a nonhydrolytic sol−gel chemistry route 36 which was modified to compatibilize the nanocrystals with the solvent mixture used to dissolve the polymer and sol. 37 The components were subsequently combined with varying amounts of TiO 2 , which led to a hybrid solution that was processed into a thin film. Following temperature annealing to condense the inorganic matrix, the organic components were removed by reactive ion etching in an oxygen plasma.…”

mentioning

confidence: 99%

Self-Cleaning Antireflective Optical Coatings

et al. 2013

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Low-cost antireflection coatings (ARCs) on large optical surfaces are an ingredient-technology for high-performance solar cells. While nanoporous thin films that meet the zero-reflectance conditions on transparent substrates can be cheaply manufactured, their suitability for outdoor applications is limited by the lack of robustness and cleanability.Here, we present a simple method for the manufacture of robust selfcleaning ARCs. Our strategy relies on the self-assembly of a blockcopolymer in combination with silica-based sol−gel chemistry and preformed TiO 2 nanocrystals. The spontaneous dense packing of copolymer micelles followed by a condensation reaction results in an inverse opal-type silica morphology that is loaded with TiO 2 photocatalytic hot-spots. The very low volume fraction of the inorganic network allows the optimization of the antireflecting properties of the porous ARC despite the high refractive index of the embedded photocatalytic TiO 2 nanocrystals. The resulting ARCs combine high optical and self-cleaning performance and can be deposited onto flexible plastic substrates.

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“…41 In the presence of phosphorus dendrimer DG 4 , a lowest E a of 15.38 kJ.mol -1 was obtained ( Figure S12, Supporting Information). The activation energies calculated for the titanium mineralization using a branch-mimicking dendrimer (M 4 ) or in the absence of any phosphorus additive (M 5 ), both of them have led to an amorphous titanium dioxide at 60°C, were found to be respectively equal to 47.72 and 49.22 kJ.mol -1 ( Figure S12, Supporting Information).…”

Section: Stability and Crystal Growth Of Anatase Nanocrystalsmentioning

confidence: 99%

Organophosphonate bridged anatase mesocrystals: low temperature crystallization, thermal growth and hydrogen photo-evolution

et al. 2015

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Royal Society of ChemistryBrahmi, Y.; Katir, N.; Macia Agullo, JA.; Primo Arnau, AM.; Bousmina, M.; García Gómez, H.; El Kadib, A. (2015). The sol-gel co-condensation of organo-phosphonate to titanium alkoxide enables access to novel organic-inorganic hybrids based on phosphonate-bridged titanium dioxide. In this contribution, we bring new perspectives to the long established solgel mineralization of titanium alkoxide species, by harnessing the virtues of the well-designed phosphonate-terminated phosphorus dendrimers as reactive amphiphilic nanoreactor, confined medium and cross-linked template to generate at low temperature synthesis (T = 60°C), discrete crystalline anatase nanoparticles. An accurate investigation on several parameters (dendrimer generation, dendrimer-to-titanium alkoxide ratio, precursor reactivity, temperature, solvent nature, salt effect) allows a correlation between the network condensation, the opening porous framework and the crystalline phase formation. The evolution of the dendrimer skeletal upon heat treatment has been deeply monitored by means of 31 P NMR, XPS and RAMAN spectroscopies. Increasing the heteroatom content within titania network provides the driving force for enhancing their photocatalytic water splitting ability for hydrogen production.

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Low temperature crystallisation of mesoporous TiO2

Cited by 19 publications

References 45 publications

Effect of seed particles on crystallization and crystallite size of anatase TiO2 nanocrystals by solvothermal treatment

Effect of seed particles on crystallization and crystallite size of anatase TiO2 nanocrystals by solvothermal treatment

Self-Cleaning Antireflective Optical Coatings

Organophosphonate bridged anatase mesocrystals: low temperature crystallization, thermal growth and hydrogen photo-evolution

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