Manipulation of homogeneous membranes with nano-sized spherical polyelectrolyte complexes for enhanced pervaporation performances in isopropanol dehydration

[Display omitted] •Homogeneous polyelectrolyte complex membranes (HPECMs) were fabricated.•The thickness of HPECMs with an ionic complexation degree (ICD) were manipulated.•The HPECMs showed excellent pervaporation performances for isopropanol dehydration.•Water flux up to 6.12 kg m−2 h−1 with 99.85...

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Bibliographic Details
Published in:Separation and purification technology 2020-03, Vol.234, p.116093, Article 116093
Main Authors: Zhai, Yunli, Zhang, Baoquan, Liu, Xiufeng, Tong, Ziqiang
Format: Article
Language:English
Subjects:
Isopropanol dehydration
Nano-sized spherical polyelectrolyte complexes
Pervaporation
Ultrathin homogeneous membranes
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Summary:[Display omitted] •Homogeneous polyelectrolyte complex membranes (HPECMs) were fabricated.•The thickness of HPECMs with an ionic complexation degree (ICD) were manipulated.•The HPECMs showed excellent pervaporation performances for isopropanol dehydration.•Water flux up to 6.12 kg m−2 h−1 with 99.85 wt% water concentration in permeate. Spherical polyelectrolyte complexes (PECs) sized at 10–20 nm were synthesized to fabricate homogeneous polyelectrolyte complex membranes (HPECMs). The PEC dispersions at various concentrations were employed to manipulate the thickness of HPECMs. Zeta potentials were measured to quantify the charge density of PECs. Scanning electron microscopy was utilized to examine membrane morphology and thickness. The surface hydrophilicity of HPECMs was evaluated by using static water contact angles. Being subjected to isopropanol dehydration, the synthesized HPECMs with nano-sized spherical PECs exhibited excellent separation performance, good stability and durability. The HPECM with the thickness of 1.1 μm displayed a significantly high permeation flux (6.12 kg m–2 h−1) with an ideal water concentration in permeate (99.85 wt%). The use of nano-sized spherical PECs ensured the homogeneous nature of synthesized polyelectrolyte complex membranes, leading to the enhancement of pervaporation performances in isopropanol dehydration. The extension of this work would trigger a large-scale application of HPECMs for dehydration of organic solvents.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2019.116093