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Microfluidic continuous flow synthesis of functional hollow spherical silica with hierarchical sponge-like large porous shell.


ABSTRACT: Microfluidics brings unique opportunities for engineering micro-/nanomaterials with well-controlled physicochemical properties. Herein, using a miniaturized multi-run spiral-shaped microreactor, we develop a flow synthesis strategy to continuously produce hollow spherical silica (HSS) with hierarchical sponge-like pore sizes ranging from several nanometers to over one hundred nanometers. The formation of HSS is realized by mixing two reactant flows, one containing cetyltrimethylammonium bromide (CTAB) and diluted ammonia and the other 1,3,5-trimethylbenzene (TMB) and diluted tetraethyl orthosilicate (TEOS), at a flow rate as high as 5 mL/min. The effect of the reactant concentration and the flow rate on the structural change of the resultant materials is examined. Functional small-sized nanoparticles (magnetic nanoparticle, quantum dot, and silver nanoparticle) can be separately assembled into HSS and high molecular weight protein (bovine serum albumin) can be successfully loaded into HSS and delivered into cancer cells afterward, making them promising in the fields of separation and purification, bioimaging, catalysis, and theranostics.

SUBMITTER: Hao N 

PROVIDER: S-EPMC6874225 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Microfluidic continuous flow synthesis of functional hollow spherical silica with hierarchical sponge-like large porous shell.

Hao Nanjing N   Nie Yuan Y   Xu Zhe Z   Closson Andrew B AB   Usherwood Thomas T   J Zhang John X JX  

Chemical engineering journal (Lausanne, Switzerland : 1996) 20190214


Microfluidics brings unique opportunities for engineering micro-/nanomaterials with well-controlled physicochemical properties. Herein, using a miniaturized multi-run spiral-shaped microreactor, we develop a flow synthesis strategy to continuously produce hollow spherical silica (HSS) with hierarchical sponge-like pore sizes ranging from several nanometers to over one hundred nanometers. The formation of HSS is realized by mixing two reactant flows, one containing cetyltrimethylammonium bromide  ...[more]

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