Triconstituent co-assembly to ordered mesostructured polymer-silica and carbon-silica nanocomposites and large-pore mesoporous carbons with high surface areas

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作者
Liu, Ruili [1 ]
Shi, Yifeng [1 ]
Wan, Ying [1 ,4 ]
Meng, Yan [1 ]
Zhang, Fuqiang [1 ]
Gu, Dong [1 ]
Chen, Zhenxia [1 ]
Tu, Bo [1 ]
Zhao, Dongyuan [1 ,2 ,3 ]
机构
[1] Department of Chemistry, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Fudan University, Shanghai 200433, China
[2] Key Laboratory of Molecular Engineering of Polymers, Fudan University, Shanghai 200433, China
[3] Advanced Materials Laboratory, Fudan University, Shanghai 200433, China
[4] Department of Chemistry, Shanghai Normal University, Shanghai 200234, China
来源
Journal of the American Chemical Society | 2006年 / 128卷 / 35期
关键词
Highly ordered mesoporous polymer-silica and carbon-silica nanocomposites with interpenetrating networks have been successfully synthesized by the evaporation-induced triconstituent co-assembly method; wherein soluble resol polymer is used as an organic precursor; prehydrolyzed TEOS is used as an inorganic precursor; and triblock copolymer F127 is used as a template. It is proposed for the first time that ordered mesoporous nanocomposites have reinforced concrete-structured frameworks. By adjusting the initial mass ratios of TEOS to resol; we determined the obtained nanocomposites possess continuous composition with the ratios ranging from zero to infinity for the two constituents that are homogeneously dispersed inside the pore walls. The presence of silicates in nanocomposites dramatically inhibits framework shrinkage during the calcination; resulting in highly ordered large-pore mesoporous carbon-silica nanocomposites. Combustion in air or etching in HF solution can remove carbon or silica from the carbon-silica nanocomposites and yield ordered mesoporous pure silica or carbon frameworks. The process generates plenty of small pores in carbon or/and silica pore walls. Ordered mesoporous carbons can then be obtained with large pore sizes of ∼6.7 nm; pore volumes of ∼2.0 cm3/g; and high surface areas of ∼2470 m2/g. The pore structures and textures can be controlled by varying the sizes and polymerization degrees of two constituent precursors. Accordingly; by simply tuning the aging time of TEOS; ordered mesoporous carbons with evident bimodal pores at 2.6 and 5.8 nm can be synthesized. © 2006 American Chemical Society;
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页码:11652 / 11662
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