Carbon Molecular Sieve Membranes from Poly(oxo-biphenylene-isatin) with Increasingly Bulky Fluorine Substitution: Characterization and Gas Transport Properties

IF 3.8 3区工程技术 Q2 ENGINEERING, CHEMICAL

Industrial & Engineering Chemistry Research Pub Date : 2024-11-14 DOI:10.1021/acs.iecr.4c03209

Jesús Ortiz-Espinoza, Enoc Cetina-Mancilla, Mikhail G. Zolotukhin, F. Alberto Ruiz-Treviño, José Martín Baas-López, Rita Sulub-Sulub, María Isabel Loría-Bastarrachea, Manuel J. Aguilar-Vega

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Abstract

Four high-rigidity poly(oxo-biphenylene-isatin) polymers (POBIs)─poly(2-oxo-3-biphenyleneindole) (POBI-H), poly(2-oxo-3-biphenylene-1-(4-fluorophenyl)indole) (POBI-FPh), poly(2-oxo-3-biphenylene-1-(3-trifluoromethylphenyl)indole) (POBI-TFMPh), and poly(2-oxo-3-biphenylene-1-(3,5-bis(trifluoromethyl)phenyl)indole) (POBI-bTFMPh)─bearing a systematic increase in bulky lateral phenyl-fluorine groups were synthesized by a superacid catalyzed reaction. Thin-film membranes from POBIs were prepared by solution casting and pyrolyzed under an inert atmosphere (Ar) to obtain carbon molecular sieve membranes (CMSMs) at 600 °C. During the pyrolysis processes, −CF₃ decomposition produces an amorphous carbon structure with more open strands, as found from an increase between carbon strand distances, L_a and L_c, and pore volume. A comparison of POBI precursor films and CMSM gas transport properties shows that CMSM presents a 10-fold increase in permeability over POBI precursors. A high gas permeability was observed, ascribed to an improved gas sorption capability in the CMSM due to an increase in condensability and surface area between POBIs as the bulkiness of phenyl-fluorine substitution increases. Aging of CMSM POBI membranes shows a decrease in permeability compared to the initial CMSM, which is larger for pyrolyzed POBI-bTFMPh, due to the rearrangement of the amorphous turbostratic structure and a considerable increase in ideal selectivity associated with the formation of compact micropores by the rearrangements of the carbon strand with an increase in ultramicropores. The overall effect of the systematic increase in bulkiness of phenyl-fluorene substitution in the POBI precursor to obtain CMSM is an increase in P due to a higher gas sorption S resulting from an increase in the pore volume and surface area and a larger L_c and L_a among the carbonaceous strands.

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含越来越多大量氟替代物的聚(氧代联苯-靛红)碳分子筛膜：表征和气体传输特性

四种高刚性聚(氧代联苯-靛红)聚合物(POBI)--聚(2-氧代-3-联苯吲哚)(POBI-H)、聚(2-氧代-3-联苯-1-(4-氟苯基)吲哚)(POBI-FPh)、聚(2-氧代-3-联苯-1-(3-三氟甲基苯基)吲哚)(POBI-TFMPh)、和聚(2-氧代-3-联苯-1-(3,5-双(三氟甲基)苯基)吲哚)(POBI-bTFMPh)--通过超级酸催化反应合成，它们具有系统性增加的笨重侧苯基-氟基团。通过溶液浇铸法制备了 POBIs 薄膜，并在 600 °C 的惰性气氛（Ar）下进行热解，得到碳分子筛膜（CMSMs）。在热解过程中，-CF3分解产生了一种无定形碳结构，具有更多的开放碳链，碳链间距（La和Lc）和孔隙体积之间的关系也随之增加。对 POBI 前驱体薄膜和 CMSM 气体传输特性的比较表明，CMSM 的透气性比 POBI 前驱体增加了 10 倍。观察到的高气体渗透性可归因于 CMSM 中气体吸附能力的提高，这是因为随着苯氟替代物体积的增加，POBI 之间的冷凝性和表面积也随之增加。与初始 CMSM 相比，CMSM POBI 膜的老化显示出渗透性的下降，热解 POBI-bTFMPh 的渗透性更大，这是由于无定形湍流结构的重新排列，以及与碳股的重新排列形成的紧密微孔有关的理想选择性的显著增加，同时超微孔的增加。在 POBI 前驱体中系统地增加苯基-芴取代物的体积以获得 CMSM 的总体效果是，由于孔隙体积和表面积增加导致气体吸附 S 增加，以及碳链之间的 Lc 和 La 变大，从而增加了 P。

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来源期刊

Industrial & Engineering Chemistry Research 工程技术-工程：化工

CiteScore

7.40

自引率

7.10%

发文量

1467

审稿时长

2.8 months

期刊介绍： ndustrial & Engineering Chemistry, with variations in title and format, has been published since 1909 by the American Chemical Society. Industrial & Engineering Chemistry Research is a weekly publication that reports industrial and academic research in the broad fields of applied chemistry and chemical engineering with special focus on fundamentals, processes, and products.