Microporous polyarylate membranes based on 3D phenolphthalein for molecular sieving

Author:

Yao Ayan1ORCID,Hou Junjun1,Dou Pengjia1,Du Jingcheng1,Sun Qian1,Song Ziye1,Liu Linghao1,Guan Jian1,Liu Jiangtao1ORCID

Affiliation:

1. Department of Environmental Science and Engineering, University of Science and Technology of China, 230052, China.

Abstract

Thin-film composite (TFC) membranes have gradually replaced some traditional technologies in the extraction, separation, and concentration of high value-added pharmaceutical ingredients due to their controllable microstructure. Nevertheless, devising solvent-stable, scalable TFC membranes with high permeance and efficient molecule selectivity is urgently needed to improve the separation efficiency in the separation process. Here, we propose phenolphthalein, a commercial acid-base indicator, as an economical monomer for optimizing the micropore structure of selective layers with thickness down to 30 nanometers formed by in situ interfacial reactions. Molecular dynamics simulations indicate that the polyarylate membranes prepared using three-dimensional phenolphthalein monomers exhibit tunable microporosity and higher pore interconnectivity. Moreover, the TFC membranes show a high methanol permeance (9.9 ± 0.1 liters per square meter per hour per bar) and small molecular weight cutoff (≈289 daltons) for organic micropollutants in organic solvent systems. The polyarylate membranes exhibit higher mechanical strength (2.4 versus 0.8 gigapascals) compared to the traditional polyamide membrane.

Publisher

American Association for the Advancement of Science (AAAS)

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