Calcium-enhanced retention of humic substances by carbon nanotube membranes: Mechanisms and implication-Reference-Cited by-同舟云学术

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Calcium-enhanced retention of humic substances by carbon nanotube membranes: Mechanisms and implication

Published:2021-07 Issue: Volume:629 Page:119273
ISSN:0376-7388
Container-title:Journal of Membrane Science
language:en
Short-container-title:Journal of Membrane Science

Author:

He Yankun^ORCID,Qin Lanlan,Huang Haiou

Funder

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

Filtration and Separation,Physical and Theoretical Chemistry,General Materials Science,Biochemistry

Reference49 articles.

1. Carbon nanotube composite membranes for microfiltration of pharmaceuticals and personal care products: capabilities and potential mechanisms;Wang;J. Membr. Sci.,2015

2. Elucidating adsorptive fractions of natural organic matter on carbon nanotubes;Ateia;Environ. Sci. Technol.,2017

3. Natural organic matter undergoes different molecular sieving by adsorption on activated carbon and carbon nanotubes;Shimizu;Chemosphere,2018

4. Behaviors and effects of differing dimensional nanomaterials in water filtration membranes through the classical phase inversion process: a review;Wang;Ind. Eng. Chem. Res.,2013

5. Development of polysulfone-nanohybrid membranes using ZnO-GO composite for enhanced antifouling and antibacterial control;Chung;Desalination,2017

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2. Impacts of high salinity on antifouling performance of hydrophilic polymer-modified reverse osmosis (RO) membrane;Journal of Membrane Science;2024-08

3. Evaluation of the applicability of selected analytical techniques for determining the characteristics of humic substances sourced from by-products of the wastewater treatment process;Science of The Total Environment;2023-08

4. Interaction between microplastics and humic acid and its effect on their properties as revealed by molecular dynamics simulations;Journal of Hazardous Materials;2023-08

5. Establishing a high-performance anti-fouling PEI-ZIF-PAA membrane with improved Lewis acid-base interactions and hydrophilicity;Chemosphere;2023-02

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