In-Situ Thermally Induced Formation of an Ultra-Glossy Hydrophilic Surface for Oil Fouling Prevention in Tio2@Mxene Membranes

27 Pages Posted: 24 Jun 2024

See all articles by Yuqing Sun

Yuqing Sun

Nanjing Tech University

Chenye Dai

Nanjing Tech University

Jian Lu

Nanjing Tech University

Yapeng Zhu

Nanjing Tech University

Yingxuan Deng

Nanjing Tech University

Xianyin Cai

Nanjing Tech University

Dong Zou

Nanjing Tech University

Wenheng Jing

Nanjing Tech University

Abstract

Oil droplets are inevitably deposited on the surface of membranes, resulting in membrane contamination during oily sewage separation. To effectively prevent oil fouling, a TiO2@MXene membrane with an ultra-glossy hydrophilic surface was designed via in-situ thermal induction to regulate the membrane surface structure and properties. Through high temperature-induced evolving the Ti valence and the functional groups of Ti3C2Tx, uniform TiO2 nanoparticles were generated in-situ on the Ti3C2Tx surface while altering the surface structure and properties, which considerably improved the hydrophilicity, underwater oleophobic properties, and surface finish of the membrane. Specifically, the TiO2@MXene membrane (MT600) exhibited a low water contact angle of 7.5° and a high underwater oil contact angle of 133.3°. Notably, the oil adhesion force of the membrane was as low as 0.0013 μN, outperforming most oil water separation membranes. Thus, the unique structure and surface properties endowed MT600 membrane with excellent oil retention (TOC removal efficiency of >95%) and antipollution ability (permeance decay rates of <10%) for oil-in-water emulsion separation. This is because the ultra-glossy hydrophilic and oleophobic surface prompted the formation of a continuous and stable hydration layer on the membrane surface and prevented oil droplets from falling into the membrane grooves. Benefiting from the robust, ultra-glossy surface, the MT600 membrane exhibited excellent long-term durability and reusability (emulsion permeance recovery of >90%) in high-salt, highly acidic, and highly alkaline environments. This study opens pathways to realize ultra-glossy membrane surface for the efficient demulsification of small size emulsions and long-lasting, stable oil water separation.

Keywords: oil water separation, ultra-glossy hydrophilic surface, robust TiO2@MXene membrane, oil fouling prevention

Suggested Citation

Sun, Yuqing and Dai, Chenye and Lu, Jian and Zhu, Yapeng and Deng, Yingxuan and Cai, Xianyin and Zou, Dong and Jing, Wenheng, In-Situ Thermally Induced Formation of an Ultra-Glossy Hydrophilic Surface for Oil Fouling Prevention in Tio2@Mxene Membranes. Available at SSRN: https://ssrn.com/abstract=4875192 or http://dx.doi.org/10.2139/ssrn.4875192

Yuqing Sun

Nanjing Tech University ( email )

Nanjing 211816
China

Chenye Dai

Nanjing Tech University ( email )

Nanjing 211816
China

Jian Lu

Nanjing Tech University ( email )

Nanjing 211816
China

Yapeng Zhu

Nanjing Tech University ( email )

Nanjing 211816
China

Yingxuan Deng

Nanjing Tech University ( email )

Nanjing 211816
China

Xianyin Cai

Nanjing Tech University ( email )

Nanjing 211816
China

Dong Zou

Nanjing Tech University ( email )

Wenheng Jing (Contact Author)

Nanjing Tech University ( email )

Nanjing 211816
China

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