Download This PaperHighspeed Transport Pathway Dominated by Continuous Arrangement of Micron-Sized Hollow Mofs in Mmms to Accelerate Co2 Permeation
25 Pages Posted: 19 Dec 2023
Abstract
The hollow filler has been verified to effectively enhance the CO2 permeability of mixed matrix membrane (MMMs) by constructing low-resistance transport pathway. However, the in-continuity of hollow fillers across the membrane results in insufficient CO2 permeability. In this work, the micron-sized hollow ZIF-8 (Mic-H-ZIF-8) were designed and proposed to accumulate continuously across the membrane to construct the transport highway for CO2. Importantly, the in-situ polymerization was utilized to achieve continuous accumulation of the Mic-H-ZIF-8 fillers across the membrane. The Mic-H-ZIF-8 presents cavity size of 4 μm and shell thickness of 100 nm, and three or four Mic-H-ZIF-8 microspheres are aligned sequentially across the membrane, in which the effective gas transport distance is decreased from 13 μm to the range of 0.8-3 μm. Consequently, the CO2 permeability of 5 wt % Mic-H-ZIF-8/PEO MMM is 224.6% and 63.5% higher than those of pure PEO membrane and nanosized hollow ZIF-8/PEO MMM at 0.1MPa. Meanwhile, the CO2/N2 selectivity is still as high as 70.0. This CO2 separation performance is far exceeding the Robeson upper bound in 2008, and beyond the McKeown upper bound in 2019 as the feed pressure increasing, confirming the significance of continuous transport highway constructed by micron-sized hollow MOFs on improving CO2 separation of MMMs.
Keywords: Transport pathway, Hollow structure, MMMs, CO2 capture
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