层状双氢氧化物
膜
化学工程
材料科学
剥脱关节
聚合物
环氧乙烷
化学
有机化学
高分子化学
氢氧化物
石墨烯
纳米技术
复合材料
共聚物
工程类
生物化学
作者
Yanan Wang,Ning Zhang,Hong Wu,Yanxiong Ren,Leixin Yang,Xiaoyao Wang,Yingzhen Wu,Yutao Liu,Rui Zhao,Zhongyi Jiang
标识
DOI:10.1016/j.memsci.2020.118691
摘要
Harvesting energy from biogas is a potential way to retard the depletion of fossil fuels and fight against global warming simultaneously. Membrane technology holds great promise to achieve cost-effective biogas upgrading, along with advantages of low energy consumption and environmental friendliness, which leads to extensive exploration in fabricating CO2 membranes with high separation performance. In this study, mixed matrix membranes are fabricated by incorporating exfoliation-free layered double hydroxides laminates intercalated with amino acids (Phe with hydrophobic side chains and Glu with hydrophilic side chains) into a low-cost commercial Pebax (poly (amide-b-ethylene oxide)) polymer. Both amino and carboxyl groups can facilitate the transport of CO2 through quadrupole moment interaction, enlarged interlayer spacing and reversible reaction. Particularly, MMM containing 5 wt% AA-LDH exhibits an optimal permeability of 790 Barrer and a promising CO2/CH4 selectivity of 31, which is 64.6% and 83.9% higher than the pristine Pebax membrane, respectively. The distinct advantages in terms of facile fabrication and processability confer the LDH-based membrane with great potential for large-scale CO2 capture and separation.
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