2015
DOI: 10.1016/j.memsci.2015.07.029
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Insights into the ultrahigh gas separation efficiency of Lithium doped carbon nanotube membrane using carrier-facilitated transport mechanism

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Cited by 6 publications
(2 citation statements)
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“…Using molecular simulations, excellent selectivity associated with extraordinary permeability for CO2 for polymer nanocomposite membrane containing CNTs doped with Li atoms was highlighted. The magnitude order in this study was found to be almost 2 times higher in comparison to the most advanced existent membranes [139].…”
Section: Biosensing Applications Of Doped-cntsmentioning
confidence: 43%
See 1 more Smart Citation
“…Using molecular simulations, excellent selectivity associated with extraordinary permeability for CO2 for polymer nanocomposite membrane containing CNTs doped with Li atoms was highlighted. The magnitude order in this study was found to be almost 2 times higher in comparison to the most advanced existent membranes [139].…”
Section: Biosensing Applications Of Doped-cntsmentioning
confidence: 43%
“…These studies are limited as a result of correlation between gas selectivity and membrane permeability. Zhou et al, have provided an insights into the ultrahigh gas separation efficiency of lithium doped CNT membrane using carrier-facilitated transport mechanism [139]. Using molecular simulations, excellent selectivity associated with extraordinary permeability for CO2 for polymer nanocomposite membrane containing CNTs doped with Li atoms was highlighted.…”
Section: Biosensing Applications Of Doped-cntsmentioning
confidence: 99%