2012
DOI: 10.1039/c2jm12592g
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Materials challenges for the development of solid sorbents for post-combustion carbon capture

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Cited by 271 publications
(228 citation statements)
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References 91 publications
(143 reference statements)
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“…Benzimidazole-linked polymers 41 show selectivities up to 113 at 273 K, being reduced to 71 at 298 K. Although nitrogen-rich organic cage frameworks 30,47 show high CO 2 /N 2 selectivities up to 213 at 298 K, their surface areas (o10 m 2 g À 1 ) and CO 2 capture capacities (up to 7.15 mg g À 1 ) are very low. Other structures with protic nitrogens also behave in a similar fashion 43,44,48 .…”
Section: Synthesismentioning
confidence: 84%
“…Benzimidazole-linked polymers 41 show selectivities up to 113 at 273 K, being reduced to 71 at 298 K. Although nitrogen-rich organic cage frameworks 30,47 show high CO 2 /N 2 selectivities up to 213 at 298 K, their surface areas (o10 m 2 g À 1 ) and CO 2 capture capacities (up to 7.15 mg g À 1 ) are very low. Other structures with protic nitrogens also behave in a similar fashion 43,44,48 .…”
Section: Synthesismentioning
confidence: 84%
“…The emerging porous metal-organic frameworks (MOFs) are promising as the cost-effective and efficient materials for CO 2 capture and separation [5][6][7][8][9][10] . The regeneration energy cost to utilize these porous materials for CO 2 capture by the implementation of temperature swing adsorption, pressure swing adsorption (PSA) and vacuum swing adsorption is significantly lower than the abovementioned alkanolamine technology.…”
mentioning
confidence: 99%
“…However, for adsorption to be used in large-scale applications, two main aspects need to be addressed. The first is the choice of the adsorbent materials (Drage et al, 2012). To date, great attention is focused on the development of highly specific adsorbent materials, namely materials with great affinity towards CO 2 molecules (Choi et al, 2009).…”
Section: Introductionmentioning
confidence: 99%