Fabrication of thin film composite nanofibrous membrane using electrospinning and dip coating technique for selective protein purification

Name: Dina Gamgali, Alkaif Rafi

Organization : Chulalongkorn University. Department of Nanoscience and Technology

Name: Chalida Klaysom

Organization : Chulalongkorn University. Department of Nanoscience and Technology

Name: Ratthapol Rangkupan

Organization : Chulalongkorn University. Metallurgy and Materials Science Research Institute

Email : ratthapol.r@chula.ac.th

keyword: Thin film composites

LCSH: Nanofibers

; Dip coating

LCSH: Membranes (Technology)

; Protein purification

LCSH: Electrospinning

Abstract: Membrane technology is highly effective in isolating proteins from other molecules through size exclusion or diffusion. However, many protein separation membranes are made from relatively hydrophobic polymers like polysulfone, a widely used material in the traditional membrane production method known as phase inversion. These membranes are prone to fouling caused by various impurities that are exacerbated by their non-uniform pore sizes and inherent hydrophobic properties. This research aimed to fabricate a thin film composite nanofibrous (TFCN) membrane with highly selective and improved anti-fouling properties by using a versatile electrospinning and dip coating method. Polyacrylonitrile-co-methyl acrylate (PANco- MA) electrospun nanofiber support was dip-coated with various concentrations (1.5, 3, and 5 wt%) of Pebax®. The results showed that the PAN nanofibrous was successfully coated with Pebax®. The highest solute rejection of 56.63±4.99% with a permeance flux of 2.21±0.15 L.m- 2.h-1.bar-1 was achieved by the thin film with 5% Pebax®. This membrane exhibited good potential as an ultrafiltration or nanofiltration membrane for the purification of protein. Further studies on the hydrophilicity, specific molecular weight cut-off, and anti-fouling properties of the TFCN are recommended to explore its capacity as a new, lightweight, and highly efficient membrane.

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2024

Modified: 2025-03-06

Issued: 2025-03-06

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BibliograpyCitation : In Thai Institute of Chemical Engineering and Applied Chemistry. The 33st Thai Institute of Chemical Engineering and Applied Chemistry International Conference (TIChE 2024) (pp.257-264). Bangkok : Thai Institute of Chemical Engineering And Applied Chemistry

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