H2 storage and CO2 capture on a nanoscale metal organic framework with high thermal stability

A nanoscale aluminium-based metal organic framework (NMOF) with high thermal stability has been synthesized, which shows high H(2) and CO(2) uptake capacities and an excellent selectivity for CO(2) over N(2) and O(2).

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Published inChemical communications (Cambridge, England) Vol. 48; no. 5; pp. 759 - 761
Main Authors Zhang, Jian, Sun, Lixian, Xu, Fen, Li, Fen, Zhou, Huai-Ying, Liu, Ying-Liang, Gabelica, Zelimir, Schick, Christoph
Format Journal Article
LanguageEnglish
Published England 18.01.2012
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Abstract A nanoscale aluminium-based metal organic framework (NMOF) with high thermal stability has been synthesized, which shows high H(2) and CO(2) uptake capacities and an excellent selectivity for CO(2) over N(2) and O(2).
AbstractList A nanoscale aluminium-based metal organic framework (NMOF) with high thermal stability has been synthesized, which shows high H(2) and CO(2) uptake capacities and an excellent selectivity for CO(2) over N(2) and O(2).
Author Sun, Lixian
Zhang, Jian
Liu, Ying-Liang
Xu, Fen
Zhou, Huai-Ying
Li, Fen
Gabelica, Zelimir
Schick, Christoph
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  givenname: Christoph
  surname: Schick
  fullname: Schick, Christoph
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