Ordered mesoporous crystalline aluminas from self-assembly of ABC triblock terpolymer–butanol–alumina sols

Tan, Kwan Wee; Sai, Hiroaki; Robbins, Spencer; Werner, Jörg G.; Hoheisel, Tobias N.; Hesse, Sarah A.; Beaucage, Peter A.; DiSalvo, Francis J.; Grüner, Sol M.; Murtagh, Martin J.; Wiesner, Ulrich

doi:10.1039/c5ra07421e

Cited by 18 publications

(52 citation statements)

References 40 publications

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“…19,23 Earlier we have reported that the carbon coating deposited on the surface of the oxide nanoparticles can act as a nanoreactor shell. On the one hand, such coating can be penetrable for the reactant molecules from the gas 7,10,24,25 or liquid 26 phases making it possible to initiate various catalytic or solid-state reactions inside the nanoreactor. Moreover, the carbon coating prevents sintering of nanoparticles inside the shell during the temperature increase and stabilizes their sizes.…”

Section: Introductionmentioning

confidence: 99%

Nanocrystalline carbon coated alumina with enhanced phase stability at high temperatures

et al. 2017

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Section: Introductionmentioning

confidence: 99%

Nanocrystalline carbon coated alumina with enhanced phase stability at high temperatures

et al. 2017

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“…Highly crystalline, ordered mesoporous oxide and carbon materials generated by structuredirecting surfactants and block copolymers (BCPs) are desirable for their tunable periodic morphologies and multifunctional properties, [1][2][3][4][5][6][7] and have been widely deployed in many applications 8 ranging from catalysis, 9,10 energy conversion and storage, [11][12][13][14] adsorption and separation, 15,16 sensing 17,18 and even superconductors. 19 However, conventional routes to form mesoporous inorganic structures with high crystallinity typically require thermal annealing treatments at elevated temperatures (≥600 °C) over long durations (≥10 hours) under controlled environments (e.g., argon, ammonia) for inorganic crystallization, thereby increasing production time and cost.…”

Section: Main Textmentioning

confidence: 99%

“…19 However, conventional routes to form mesoporous inorganic structures with high crystallinity typically require thermal annealing treatments at elevated temperatures (≥600 °C) over long durations (≥10 hours) under controlled environments (e.g., argon, ammonia) for inorganic crystallization, thereby increasing production time and cost. [3][4][5][6][7][15][16][17][18][19] In particular, untamed nucleation and growth of crystallites that occur spontaneously at higher temperatures often result in the collapse of ordered structures. 2,5,7 Alternative nonequilibrium methods have been explored for the rapid formation of single crystal and polycrystalline inorganic nanostructures on shorter time frames.…”

Section: Main Textmentioning

confidence: 99%

“…[3][4][5][6][7][15][16][17][18][19] In particular, untamed nucleation and growth of crystallites that occur spontaneously at higher temperatures often result in the collapse of ordered structures. 2,5,7 Alternative nonequilibrium methods have been explored for the rapid formation of single crystal and polycrystalline inorganic nanostructures on shorter time frames. [20][21][22][23][24][25][26][27][28][29] For example, Tan et al demonstrated an all-laser-induced approach coupling BCP-directed self-assembly of resols with sub-millisecond laser heating (B-WRITE) to write hierarchically mesoporous polymer and carbon thin film structures.…”

Section: Main Textmentioning

confidence: 99%

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Ultrafast Crystallization of Ordered Mesoporous Metal Oxides and Carbon in Seconds

Wang¹,

Seah²,

Li³

et al. 2021

Preprint

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This Communication describes a facile strategy coupling block copolymer-directed self-assembly with high-power Joule heating to form highly crystalline and long-range ordered mesoporous oxide and carbon nanostructures in just a few seconds. The combined approach is compatible with various self-assembled hybrid systems, generating mesoporous composites of γ-Al2O3-carbon, γ-Al2O3/MgO-carbon and anatase-TiO2-carbon with p6mm symmetry, as well as mesoporous non-close-packed carbon structures. Removing the polymer/carbon gives well-defined mesoporous all-γ-Al2O3 and all-anatase-TiO2 structures. Impregnation of chloroplatinic acid followed by Joule heating yields platinum nanoparticles decorated on the channel walls of mesoporous γ-Al2O3-carbon structures. The rapid formation of thermally stable and periodically ordered crystalline oxide, carbon and oxide-carbon structures. <br>

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“…However, the practical application is plagued by the poor thermal stability resulted from their amorphous or semi-crystalline pore walls. As a result, design and synthesis of MA with crystalline pore walls has long been a hot topic [5][6][7][8]. Recently, considerable efforts [9][10][11][12] have been devoted to reduce the synthesis cost of crystalline MA by using the inexpensive inorganic aluminum salts to replace aluminum alkoxides.…”

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confidence: 99%

Ordered crystalline mesoporous γ-alumina fabricated by vacuum-promoted self-assembly and alkaline hydrothermal method

et al. 2016

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1 Ordered crystalline mesoporous -alumina fabricated by vacuum-promoted self-assembly and alkaline hydrothermal method Abstract:As a commonly adopted approach to mesoporous alumina (MA), evaporation induced self-assembly (EISA) method with precursors containing chloride (e.g. AlCl3) faces a challenge to yield an ordered MA with crystalline pore walls because the chloride ion (Cl -) could affect the assembly and crystallization, resulting from the strong coordination of Clto aluminum. Herein, a vacuum-promoted self-assembly and alkaline hydrothermal approach was developed and realized the preparation of ordered crystalline MA from AlCl3. The obtained MA possesses ordered mesoporous structure, crystallized pore walls, narrow pore size distribution, large surface (390 m 2 /g) and shows a superior catalytic performances towards catalytic dehydration of ethanol to ethylene.

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Ordered mesoporous crystalline aluminas from self-assembly of ABC triblock terpolymer–butanol–alumina sols

Cited by 18 publications

References 40 publications

Nanocrystalline carbon coated alumina with enhanced phase stability at high temperatures

Nanocrystalline carbon coated alumina with enhanced phase stability at high temperatures

Ultrafast Crystallization of Ordered Mesoporous Metal Oxides and Carbon in Seconds

Ordered crystalline mesoporous γ-alumina fabricated by vacuum-promoted self-assembly and alkaline hydrothermal method

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