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Polymeric membranes in carbon capture, utilization, and storage: current trends and future directions in decarbonization of industrial flue gas and climate change mitigation

Arash Mollahosseini, Mostafa Nikkhah Dafchahi, Saeed Khoshhal Salestan, Jia Wei Chew, Mohammad Mozafari, Masoud Soroush, Sabahudin Hrapovic, Usha D. Hemraz, Ronaldo Giro, M. Steiner, Young‐Hye La, Seyed Fatemeh Seyedpour Taji, Khalid Azyat, Muhammad Amirul Islam, Sajjad Kavyani, Xinyu Wang, Jae‐Young Cho, Mohtada Sadrzadeh

2025Energy & Environmental Science96 citationsDOIOpen Access PDF

Abstract

Material, process, and computational developments for polymeric membrane-assisted decarbonization.

Topics & Concepts

Climate changeFlue gasCarbon capture and storage (timeline)Environmental scienceCurrent (fluid)Carbon fibersClimate change mitigationGreenhouse gasWaste managementMaterials scienceEngineeringGeologyOceanographyComposite numberComposite materialElectrical engineeringMembrane Separation and Gas Transport
Polymeric membranes in carbon capture, utilization, and storage: current trends and future directions in decarbonization of industrial flue gas and climate change mitigation | Litcius