One-pot synthesis of the amine-modified meso-structured monolith CO2 adsorbent

Jing Jia Wen; Fang Na Gu; Feng Wei; Yu Zhou; Wei Gang Lin; Jing Yang; Jia Yuan Yang; Ying Wang; Zhi Gang Zou; Jian Hua Zhu

doi:10.1039/B920027D

One-pot synthesis of the amine-modified meso-structured monolith CO₂ adsorbent†

Jing Jia Wen,^a Fang Na Gu,^ab Feng Wei,^a Yu Zhou,^a Wei Gang Lin,^a Jing Yang,^a Jia Yuan Yang,^a Ying Wang,^b Zhi Gang Zou^b and Jian Hua Zhu*^a

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^a Key Laboratory of Mesoscopic Chemistry of MOE, college of Chemistry and Chemical Engineering, Nanjing University, Nanjing, China
E-mail: jhzhu@netra.nju.edu.cn
Fax: +0086-25-83317761
Tel: +0086-25-83595848

^b Ecomaterials and Renewable Energy Research Centre (ERERC), Nanjing University, Nanjing, China

Abstract

A new attempt to synthesize the amine-modified meso-structured monolith CO₂ adsorbent in a one-pot process is reported here for the first time, in which tetraethylenepentamine (TEPA) is utilized not only as the modifier coating onto the resulting monolith, but also the additive controlling the generation of micropores in the silica wall. The amount of TEPA has multiple influences on the synthesis, affecting hydrolysis-condensation of the silicate precursor, impacting the textural properties of the silica skeleton and determining the final CO₂ adsorption ability. Apart from the advantage of saving time and energy in their synthesis, these resulting TEPA containing monoliths possess a considerable mechanistic strength bearing the pressure of 64 N cm⁻², and exhibiting a high capacity up to 171 mg g⁻¹ in CO₂ adsorption.

Journal of Materials Chemistry

One-pot synthesis of the amine-modified meso-structured monolith CO₂ adsorbent†

Abstract

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One-pot synthesis of the amine-modified meso-structured monolith CO₂ adsorbent

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Journal of Materials Chemistry