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- 저자 : Jiangzhou Luo (검색결과 1 건)
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Guoxiong Deng,Yilei Wang,Xueping Zong,Jiangzhou Luo,Xuezhen Wang,Chunxue Zhang,Song Xue 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.94 No.-
Here we reported a causal relationship between the molecular structure of binaphthol-based polyimideprecursor and the pore-size distribution of the derived carbon membrane. The binaphthol-basedpolyamide acid is synthesized from 2,20-diol-1,10-binaphthyl-6,60-diamine and 4,40-(hexafluoroisopro-pylidene)diphthalic anhydride (6FDA). Then, an azeotropic imidiaztion method was used to synthesizethe polyimide with naphthol groups (XS1). When the imidization is carried out by using acetic anhydride,the polyimide with acetyl groups (XS4) is achieved. The CMS membranes prepared by pyrolyzing XS1 andXS4 at 500, 550, and 600 ℃ are named using the temperature as the suffix, such as XS1-500. Their poreevolution has been investigated using TGA, FTIR, XRD, and Raman measurements. The trimodal pore-sizedistribution is in the carbon molecular sieve (CMS) membranes derived from XS4 and the CMS onesderived from XS1 exhibit a bimodal pore structure. Among them, XS4-500 exhibits the highest gaspermeabilities of 3332 barrer for CO2, 773 barrer for O2, and 119 barrer for N2. XS1-500 only affords theCO2, O2, and N2 permeabilities of 1086, 230, and 30.2 barrer. The esterification of naphthol not justdisturbs the hydrogen bonds between polyimide chains but also affects the pore generation of thederived CMS membranes. Our work provides an effective way to enhance the gas permeability of a CMSmembrane derived from the binaphthol-based polyimide.
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