介孔二氧化硅@钴铝层状双氢氧化物球的合成：逐层法及其对环氧树脂阻燃性能的影响

Synthesis of mesoporous silica@Co-Al layered double hydroxide spheres: layer-by-layer method and their effects on the flame retardancy of epoxy resins.

作者信息

Jiang Shu-Dong, Bai Zhi-Man, Tang Gang, Song Lei, Stec Anna A, Hull T Richard, Hu Yuan, Hu Wei-Zhao

机构信息

State Key Laboratory of Fire Science, University of Science and Technology of China , 96 Jinzhai Road, Hefei, Anhui 230026, China.

出版信息

ACS Appl Mater Interfaces. 2014 Aug 27;6(16):14076-86. doi: 10.1021/am503412y. Epub 2014 Aug 4.

DOI:10.1021/am503412y

PMID:25062606

Abstract

Hierarchical mesoporous silica@Co-Al layered double hydroxide (m-SiO2@Co-Al LDH) spheres were prepared through a layer-by-layer assembly process, in order to integrate their excellent physical and chemical functionalities. TEM results depicted that, due to the electrostatic potential difference between m-SiO2 and Co-Al LDH, the synthetic m-SiO2@Co-Al LDH hybrids exhibited that m-SiO2 spheres were packaged by the Co-Al LDH nanosheets. Subsequently, the m-SiO2@Co-Al LDH spheres were incorporated into epoxy resin (EP) to prepare specimens for investigation of their flame-retardant performance. Cone results indicated that m-SiO2@Co-Al LDH incorporated obviously improved fire retardant of EP. A plausible mechanism of fire retardant was hypothesized based on the analyses of thermal conductivity, char residues, and pyrolysis fragments. Labyrinth effect of m-SiO2 and formation of graphitized carbon char catalyzed by Co-Al LDH play pivotal roles in the flame retardance enhancement.

摘要

通过层层组装工艺制备了分层介孔二氧化硅@钴铝层状双氢氧化物（m-SiO₂@Co-Al LDH）微球，以整合其优异的物理和化学功能。透射电镜结果表明，由于m-SiO₂与Co-Al LDH之间的静电势差，合成的m-SiO₂@Co-Al LDH杂化物显示m-SiO₂微球被Co-Al LDH纳米片包裹。随后，将m-SiO₂@Co-Al LDH微球掺入环氧树脂（EP）中，制备用于研究其阻燃性能的样品。锥形量热测试结果表明，掺入m-SiO₂@Co-Al LDH明显提高了EP的阻燃性。基于对热导率、残炭和热解碎片的分析，推测了一种合理的阻燃机理。m-SiO₂的迷宫效应和Co-Al LDH催化形成的石墨化碳炭在提高阻燃性方面起关键作用。

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介孔二氧化硅@钴铝层状双氢氧化物球的合成：逐层法及其对环氧树脂阻燃性能的影响

Synthesis of mesoporous silica@Co-Al layered double hydroxide spheres: layer-by-layer method and their effects on the flame retardancy of epoxy resins.

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