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Enhanced <scp>CO<sub>2</sub></scp>/<scp>N<sub>2</sub></scp> separation in hybrid composite membrane via dispersion of hollow defect‐engineered <scp>Zr‐MOF</scp> nanoparticles

Jiahui Yan, Yanwei Sun, Taotao Ji, Mingming Wu, Shengyan Meng, Wen‐Wen Dong, Yi Liu, Yi Liu, Kunpeng Yu, Wenjing Hu, Bingbing Sun, Peng Lu, Yanshuo Li, Haoquan Hu, Yi Liu, Yi Liu

2024AIChE Journal20 citationsDOI

Abstract

Abstract High‐performance and durable membranes are being sought to enable energy‐efficient CO 2 capture. Although representing an appealing candidate for the above application, successful translation of distinct properties of MOF filler into hybrid composite membranes (HCMs) remains challenging. In this study, we synthesized uniform hollow defect‐engineered UiO‐66 nanoparticles as filler for enhancing the CO 2 /N 2 separation performance and durability of Pebax‐2533 membranes. The existence of missing‐linker defects in the framework not only endows HCMs with higher CO 2 /N 2 adsorption selectivity but also provides ultrafast CO 2 transport pathways; moreover, hollow structure of UiO‐66 not only contributes to better filler dispersibility in polymeric matrix but also reduces CO 2 diffusion path length. Obtained HCMs manifest concurrently increased CO 2 permeability (3100 Barrer) and CO 2 /N 2 separation factor (44), far exceeding state‐of‐the‐art 2019 upper bound for polymer membranes; moreover, our membranes exhibit enhanced resistance toward plasticization, physical aging, and water vapors under harsh operation conditions.

Topics & Concepts

Composite numberDispersion (optics)NanoparticleMembraneChemical engineeringChemistryMaterials scienceNanotechnologyComposite materialEngineeringPhysicsBiochemistryOpticsMembrane Separation and Gas TransportMXene and MAX Phase MaterialsMetal-Organic Frameworks: Synthesis and Applications
Enhanced <scp>CO<sub>2</sub></scp>/<scp>N<sub>2</sub></scp> separation in hybrid composite membrane via dispersion of hollow defect‐engineered <scp>Zr‐MOF</scp> nanoparticles | Litcius