Tengchun Song scite author profile

in Wiley InterScience (www.interscience.wiley.com).Through a two-step synthesis procedure, bimodal micro-mesoporous aluminosilicates, denoted as B-MASs, were synthesized by assembling preformed zeolite Y nanoclusters using a triblock polymer as template. By controlling the aging conditions of preformed zeolite nanoclusters the porosity of the B-MASs was suitably tuned. The characterization results showed that the pore walls of the mesoporous phase in the B-MASs consist of zeolite Y nanoclusters and the microporosity of the B-MASs is inherited from the incorporated nanoclusters. It was suggested that more incorporation of the well-developed zeolite nanoclusters accounts for the increasing microporosity of the B-MASs with the increasing aging temperature of the preformed zeolite nanoclusters. The incorporated nanoclusters have much shorter pore channels and mainly contribute weak Lewis acid sites to the B-MASs. The resulting bimodal micro-mesoporous materials B-MASs with mutually connected mesopores and shorter micropores showed superior catalytic properties when used for cracking heavy crude oil.

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Tengchun Song

Synthesis, characterization, and catalytic properties of hydrothermally stable macro–meso–micro-porous composite materials synthesized via in situ assembly of preformed zeolite Y nanoclusters on kaolin

Bimodal micro‐mesoporous aluminosilicates for heavy oil cracking: Porosity tuning and catalytic properties

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