Polymeric membranes in carbon capture, utilization, and storage: current trends and future directions in decarbonization of industrial flue gas and climate change mitigation
AMArash MollahosseiniMNMostafa Nikkhah DafchahiSKSaeed Khoshhal SalestanJWJia Wei ChewMMMohammad Mozafari
National Institute for Nanotechnology · MacEwan University · +8 more institutions
Indexed incrossref
Abstract
Material, process, and computational developments for polymeric membrane-assisted decarbonization.
Citation impact
79
total citations
- FWCI
- 44.24
- Percentile
- 100%
- References
- 481
Citations per year
Authors
18- AMArash MollahosseiniCorresponding
National Institute for Nanotechnology, MacEwan University
- MNMostafa Nikkhah Dafchahi
University of Saskatchewan
- SKSaeed Khoshhal Salestan
University of Alberta, Chalmers University of Technology
- JWJia Wei Chew
Chalmers University of Technology
- MMMohammad Mozafari
Drexel University
Topics & keywords
Keywords
- Climate change
- Flue gas
- Carbon capture and storage (timeline)
- Environmental science
- Current (fluid)
- Carbon fibers
- Climate change mitigation
- Greenhouse gas
No related works found for this paper.
Funding
- NSNational Science FoundationAwards: CMMI-2134607, 2134607
- GOGovernment of Canada
- COCanada's Oil Sands Innovation AllianceAward: ALLRP 556293-20
- NSNatural Sciences and Engineering Research Council of CanadaAwards: ALLRP 556293-20, NSERC ALLRP 556293-20, 556293-20
- NRNatural Resources Canada
- DODivision of Civil, Mechanical and Manufacturing InnovationAward: CMMI-2134607
- OOOffice of Energy Research and Development