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PIM-1-based membranes mediated with CO2-philic MXene nanosheets for superior CO2/N2 separation

CHEMICAL ENGINEERING JOURNAL [2024]
Kaifang Wang, Danlin Chen, Jiali Tang, Zihao Hong, Zhongtai Zhu, Ziyi Yuan, Zhihong Lin, Yuqi Liu, Raphael Semiat, Xuezhong He
ABSTRACT

Membrane gas separation technologies have emerged as highly prospective avenues for the selective separation of CO 2 . In this research, a novel array of mixed-matrix membranes (MMMs) was engineered, integrating two-dimensional nanosheets of MXene, specifically Ti 3 C 2 T x , into polymers of intrinsic microporosity (PIMs) to selectively separate CO 2 from N 2 . The inclusion of Ti 3 C 2 T x nanosheets, rich in polar functional groups, significantly increases the affinity between CO 2 molecules and the fabricated MMMs. Additionally, the precise modulation of the molecular diffusion channels for CO 2 and N 2 is achievable due to the interlayer spacing between MXene layers (∼0.35 nm) within the PIM-1 matrix. This innovation is predicated on the synergistic effect of solution-diffusion and molecular sieving mechanisms that underpin the gas separation process, leading to a marked improvement in both selectivity for CO 2 over N 2 and the permeability of CO 2 . Among the series, the MMMs with a 0.5 wt% MXene display exceptional separation efficiency, achieving a CO 2 permeability of 12475.3 barrer and a CO 2 /N 2 selectivity of 32.7. Notably, all the PIM-1/MXene membranes prepared with different compositions in this study exceed the Robeson upper bound defined in 2019, indicating their substantial promise for CO 2 separation and capture in industrial applications.

MATERIALS

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