The effect of chain rigidity and microporosity on the sub-ambient temperature gas separation properties of intrinsic microporous polyimides

The relationship between the rigidity, microporosity and the ideal gas separation properties of polymers of intrinsic microporosity (PIM) is very important but seldom studied in detail. Herein, we designed a novel bromine substituted intrinsic microporosity polyimide (PIM-DB-PI), and compared its ga...

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Bibliographic Details
Published in:Journal of membrane science 2021-10, Vol.635, p.119439, Article 119439
Main Authors: Ji, Wenhui, Li, Kaihua, Shi, Wenxiong, Bai, Lifeng, Li, Jianxin, Ma, Xiaohua
Format: Article
Language:English
Subjects:
Enthalpic/entropic selectivity
Microporosity
Polyimides of intrinsic microporosity
Rigidity
Sub-ambient temperature gas separation
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Summary:The relationship between the rigidity, microporosity and the ideal gas separation properties of polymers of intrinsic microporosity (PIM) is very important but seldom studied in detail. Herein, we designed a novel bromine substituted intrinsic microporosity polyimide (PIM-DB-PI), and compared its gas separation properties with a more rigid and microporous PIM-PI-1 (680 vs 435 m2 g−1) from −30 to 30 °C for the first time. Both PIM-PIs showed improved ideal gas separation properties with their performance for H2/N2, O2/N2, CO2/N2 and CO2/CH4 changed from well below the 2008 trade-off lines to approach or even above their latest trade-off lines upon decreasing temperature. The PIM-PI-1 with higher microporosity and rigidity showed higher gas permeability, diffusion and solubility coefficients as well as larger activation energy of permeation (Ep) and diffusion (Ed) than PIM-DB-PI, whereas PIM-DB-PI exhibited higher gas pair selectivity derived from its larger diffusion selectivity (aD), which was attributed to its higher enthalpic selectivity. Besides, the PIM-DB-PI showed a much larger critical penetrate size ((f/c)1/2) than PIM-PI-1 due to its higher flexibility. The above finding indicates that both rigidity and microporosity are very important in fine-tuning the gas transport through the polymer membrane. The microporosity has dominant effect on the gas diffusion selectivity of the membrane and the rigidity has more effect on the critical diffusion penetrate size ((f/c)1/2) of PIM-PI membranes. [Display omitted] •Gas separation properties of two PIM-PIs were reported from 30 to −30 °C.•PIM-PI-1 with higher surface area and rigidity showed larger permeability and lower selectivity than PIM-DB-PI.•The PIM-PI-1 showed higher activation energy of permeation and diffusion than PIM-DB-PI.•The microporosity had much stronger effect than rigidity on the diffusion selectivity due to higher enthalpic selectivity.•The rigidity is dominant in determine the critical diffusion penetrate size ((f/c)1/2) of the PIM-PI membranes.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2021.119439