2008
DOI: 10.1016/j.micromeso.2007.12.016
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Promoting the CO2 adsorption in the amine-containing SBA-15 by hydroxyl group

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Cited by 235 publications
(208 citation statements)
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“…As displayed in Fig. 4, the parent SBA-15 was composed of many rope-shaped domains with relatively uniform particles around 1 μm, which aggregated into wheat-like macrostructure, in agreement with the earlier literature 26,33 . The SBA-15-pr-guanindine catalyst displayed a wheat-like morphology similar to the parent SBA-15 silica.…”
Section: Catalyst Characterizationsupporting
confidence: 91%
See 1 more Smart Citation
“…As displayed in Fig. 4, the parent SBA-15 was composed of many rope-shaped domains with relatively uniform particles around 1 μm, which aggregated into wheat-like macrostructure, in agreement with the earlier literature 26,33 . The SBA-15-pr-guanindine catalyst displayed a wheat-like morphology similar to the parent SBA-15 silica.…”
Section: Catalyst Characterizationsupporting
confidence: 91%
“…As shown in Fig. 5, the TEM micrograph of SBA-15 silica clearly revealed the regular hexagonal array of one-dimensional channels with a typical honeycomb-like appearance of solid materials, suggesting the presence of highly ordered pore structure of the host material 29,33 . The prepared SBA-15-pr-guanindine catalyst showed a similar TEM micrograph to the non-functionalized SBA-15 silica, which further demonstrated that the ordered mesoporous framework was essentially retained after the incorporation of organic components into the SBA-15 support, which facilitates the reactant molecules access to the catalytic sites on the catalyst surface.…”
Section: Catalyst Characterizationmentioning
confidence: 91%
“…This was probably due to that the template in the pore could prevent TEPA from aggregating to clusters. They further investigated a mixture of TEPA and diethanolamine (DEA) impregnated into the as-synthesized SBA-15 (Yue et al, 2008b). In this case, the highest CO 2 adsorption capacity as 4.00 mmol/g was obtained at a loading of 35% TEPA and 15% DEA, while the maximum CO 2 /N ratio around 0.4 was observed at a loading of 30% TEPA and 20% DEA under anhydrous pure CO 2 .…”
Section: Fig 3 (Continued)mentioning
confidence: 99%
“…(4) ; secondly, a large number of hydroxyl groups in PEG may play a synergistic contribution to the CO 2 adsorption. The hydroxyl groups existing in PEG may facilitate the dispersion of PEI, which promotes the accessibility of amine groups towards CO 2 molecules (Yue et al, 2008).…”
Section: Effect Of Peg Additionmentioning
confidence: 99%