摘要
以聚丙烯腈(PAN)为前驱体,通过相转化法制备不对称多孔聚合物膜,结合氧化预处理及高温炭化(500~800℃)工艺,成功开发了PAN基不对称多孔炭分子筛膜。结合多种表征技术,探究了热处理过程中化学结构、炭微观结构、膜微观形貌及孔结构的演变规律。实验结果表明,氧化预处理诱导分子链形成梯形的交联网络结构,有效抑制了炭化过程中孔结构塌陷,所得炭膜维持了前驱体聚合物膜的三维贯通孔道结构。生成的碳结构为无定型结构,且炭层间距较大,有利于气体分子渗透。800℃炭化制备的PAN基多孔炭膜O_(2)渗透通量可达1166 GPU,O_(2)/N_(2)选择性为1.10,高于努森扩散理论值。本研究验证了PAN作为膜的低成本碳基支撑层材料的可行性,为开发高性能中空纤维复合炭膜提供了实验支持。
In this work,polyacrylonitrile(PAN)was utilized as a precursor to fabricate asymmetric porous polymer membranes via the phase inversion method.Subsequently,oxidative pretreatment and high-temperature high-temperature carbonization(500~800℃)were employed to successfully develop PAN-based asymmetric porous carbon molecular sieve membranes.A combination of characterization techniques was applied to systematically investigate the evolutionary mechanisms of chemical structures,carbon microstructures,membrane morphologies,and pore architectures during thermal treatment.Experimental results revealed that oxidative pretreatment induced the formation of a ladder-type cross-linked network structure within molecular chains,effectively mitigating pore collapse during carbonization.The resulting carbon membranes retained the three-dimensional interconnected pore channels inherited from the precursor polymer membrane.The disordered and loosely stacked carbon layers facilitated enhanced gas molecule permeation.The PAN-derived porous carbon membrane carbonized at 800℃exhibited an exceptional O_(2)permeance of 1166 GPU with an O_(2)/N_(2)selectivity of 1.10,surpassing the theoretical Knudsen diffusion limit.This work validates the feasibility of PAN as a cost-effective support layer material and provides experimental insights for developing high-performance hollow fiber composite carbon membranes.
作者
金鑫
徐瑞松
杨卫亚
李琳
王同华
JIN Xin;XU Ruisong;YANG Weiya;LI Lin;WANG Tonghua(SINOPEC Dalian Research Institute of Petroleum and Petrochemicals,Dalian 116041,China;State Key Laboratory of Fine Chemicals,School of Chemical Engineering,Dalian University of Technology,Dalian 116024,China)
出处
《膜科学与技术》
北大核心
2025年第4期25-31,42,共8页
Membrane Science and Technology
基金
国家重点研发计划(2021YFB3801200)
国家自然科学基金(22278051,22178044,22378043)。
关键词
炭分子筛膜
聚丙烯腈
不对称多孔膜
气体分离膜
carbon molecular sieve membrane
polyacrylonitrile
asymmetric porous membrane
gas separation membrane
作者简介
第一作者:金鑫(1989-),女,辽宁大连人,工程师,博士,主要研究方向为分子筛材料、膜材料;通讯作者:李琳,E-mail:lilin121@dlut.edu.cn。
