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Main Authors: Tran, Nhat Minh, Tai, Nguyen Tan, Vu, Ngoc Phuong, Nguyen, Lan Huong, Le, Hieu Nghi, Dieu, Cao Long Nguyen, Ha, An Do Ngoc, Thanh, Vuong Ly Huu, Vuong, Vinh-Dat
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.08987
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author Tran, Nhat Minh
Tai, Nguyen Tan
Vu, Ngoc Phuong
Nguyen, Lan Huong
Le, Hieu Nghi
Dieu, Cao Long Nguyen
Ha, An Do Ngoc
Thanh, Vuong Ly Huu
Vuong, Vinh-Dat
author_facet Tran, Nhat Minh
Tai, Nguyen Tan
Vu, Ngoc Phuong
Nguyen, Lan Huong
Le, Hieu Nghi
Dieu, Cao Long Nguyen
Ha, An Do Ngoc
Thanh, Vuong Ly Huu
Vuong, Vinh-Dat
contents Currently, the pre-treatment for membrane filtration systems is receiving more attention that can be remove large particles and debris or enhance permeation flux. In this study, commercial nylon 6 fabric is modified via hydrolysis amidation reaction in alkaline media with NaOH and Dimethylene diamine. The increase of hydrophilicity amino groups on the surface of treated fabric which increases the hydrophilicity of the fabric. This opens up new possibilities for the treatment process in commercial membrane filtration systems. Besides, amino enriched nylon 6 fabric can capture carboxylic functionalized carbon-based nanomaterials forwards to the synthesis of thin film nanocomposite membranes based on carboxylated multi-walled carbon nanotubes.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08987
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Enhancing the hydrophilicity of nylon-6 fabric via hydrolysis amidation dual treatment in alkaline as a pre-treatment for membrane filtration systems
Tran, Nhat Minh
Tai, Nguyen Tan
Vu, Ngoc Phuong
Nguyen, Lan Huong
Le, Hieu Nghi
Dieu, Cao Long Nguyen
Ha, An Do Ngoc
Thanh, Vuong Ly Huu
Vuong, Vinh-Dat
Chemical Physics
Currently, the pre-treatment for membrane filtration systems is receiving more attention that can be remove large particles and debris or enhance permeation flux. In this study, commercial nylon 6 fabric is modified via hydrolysis amidation reaction in alkaline media with NaOH and Dimethylene diamine. The increase of hydrophilicity amino groups on the surface of treated fabric which increases the hydrophilicity of the fabric. This opens up new possibilities for the treatment process in commercial membrane filtration systems. Besides, amino enriched nylon 6 fabric can capture carboxylic functionalized carbon-based nanomaterials forwards to the synthesis of thin film nanocomposite membranes based on carboxylated multi-walled carbon nanotubes.
title Enhancing the hydrophilicity of nylon-6 fabric via hydrolysis amidation dual treatment in alkaline as a pre-treatment for membrane filtration systems
topic Chemical Physics
url https://arxiv.org/abs/2507.08987