Bee Ting Low scite author profile

The membrane gas separation industry is 35 years old and growing at a significant rate. Development of higher selectivity and higher permeance membranes would result in faster growth. This paper will analyze the barriers that have inhibited the development of these membranes. We start by reviewing the lessons that can be drawn from the past 35 years of experience. We then review the needs and most promising research directions for new materials in current and future membrane applications.

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The strategies of molecular architecture and modification of polyimide-based membranes for CO2 removal from natural gas—A review

Xiao

Low

Hosseini

et al. 2009

Progress in Polymer Science

529

207

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Polymeric membranes for the hydrogen economy: Contemporary approaches and prospects for the future

Shao

Low

Chung

et al. 2009

Journal of Membrane Science

320

164

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Simultaneous Occurrence of Chemical Grafting, Cross-Linking, and Etching on the Surface of Polyimide Membranes and Their Impact on H₂/CO₂ Separation

et al. 2008

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Surface modifications of copoly(4,4′-diphenylene oxide/1,5-naphthalene-2,2′-bis(3,4-dicarboxylphenyl)hexafluoropropanediimide (6FDA-ODA/NDA) dense membranes were performed using ethylenediamine (EDA), 1,3-diaminopropane (PDA), and 1,4-diaminobutane (BuDA). Chemical grafting, cross-linking, and etching on the film surface have been verified by ATR-FTIR, UV-vis, AFM, and gel content analyses. The varying extent of the above-mentioned types of surface modification is dependent on the nucleophilicity and molecular dimensions of the diamines, which were computed using molecular simulation. Highly severe chemical etching occurred with EDA modification due to its small molecular dimensions and high nucelophilicity. The greatest degree of cross-linking was provided by PDA modification due to its favorable kinetic property and appropriate nucleophilicity. The ideal H 2 /CO 2 permselectivity escalated from a polymer intrinsic permselectivity of 2.3 to a remarkable value of 64 after PDA modification for 90 min. This promising result was reconfirmed by the binary gas tests showing a H 2 /CO 2 permselectivity of 45 at 35 °C. To the best of our knowledge, this mixed gas permselectivity emerged as the highest ever reported for glassy polymers in the literature. However, because of the inherent nature of the diamines modified films, direct comparison of the gas separation performances reported in this work with the Robeson upper bound cannot be established. In short, appropriate selections of diamino reagent and modification duration are required to cross-link the polymeric chains substantially while maintaining the main-chain rigidity, thereby giving the desired gas separation performance of the membrane.

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Bee Ting Low

Gas Separation Membrane Materials: A Perspective

The strategies of molecular architecture and modification of polyimide-based membranes for CO2 removal from natural gas—A review

Polymeric membranes for the hydrogen economy: Contemporary approaches and prospects for the future

Simultaneous Occurrence of Chemical Grafting, Cross-Linking, and Etching on the Surface of Polyimide Membranes and Their Impact on H₂/CO₂ Separation

Contact Info

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Resources

About

Bee Ting Low

Gas Separation Membrane Materials: A Perspective

The strategies of molecular architecture and modification of polyimide-based membranes for CO2 removal from natural gas—A review

Polymeric membranes for the hydrogen economy: Contemporary approaches and prospects for the future

Simultaneous Occurrence of Chemical Grafting, Cross-Linking, and Etching on the Surface of Polyimide Membranes and Their Impact on H2/CO2 Separation

Contact Info

Product

Resources

About

Simultaneous Occurrence of Chemical Grafting, Cross-Linking, and Etching on the Surface of Polyimide Membranes and Their Impact on H₂/CO₂ Separation