One-step plant-inspired reaction that transform membrane hydrophobicity into high hydrophilicity and underwater super oleophobicity for oil-in-water emulsion separation

Ding Liping; Wang Yanqing; Zhu Peng; Bai Yongping

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One-step plant-inspired reaction that transform membrane hydrophobicity into high hydrophilicity and underwater super oleophobicity for oil-in-water emulsion separation

机译：一步植物启发反应，将膜疏水性转化为高亲水性和水下超疏油性的油包水乳液分离

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Here we report a universal and cost-effective strategy via a one-step levodopa (L-DOPA)/3-amino-propyltriethoxysilane (APTES) reaction modified hydrophobic membrane for highly efficient separation of oil-water emulsions. Interestingly, the newly designed composite membrane possesses both high hydrophilicity and underwater super oleophobicity. Under gravity-driven separation conditions, the membrane displays superior efficiency to separate oil-water emulsions with an ultrahigh water flux. The low cost, the simplicity of fabrication, and versatility of the L-DOPA/APTES coating may open up new insights to molecularly design commercial membranes with superior hydrophilicity and underwater super oleophobicity for oily water separation and purification.

机译：在这里，我们通过一步左倍泮（L-DOPA）/ 3-氨基 - 丙基三氧基硅烷（Aptes）反应改性疏水膜来报告普通和成本效益的策略，用于高效分离油水乳液。有趣的是，新设计的复合膜具有高亲水性和水下超级疏水性。在重力驱动的分离条件下，膜显示出优异的效率，以将油水乳液与超高水通量分离。 L-DOPA / APTES涂层的低成本，制造简单性和型多功能性可能对分子设计具有优异的亲水性和水下超疏水性的商业膜来开辟新的洞察力，用于油性水分离和纯化。

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来源
《Applied Surface Science》 |2019年第15期|423-429|共7页
作者
Ding Liping; Wang Yanqing; Zhu Peng; Bai Yongping;
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作者单位

Nantong Univ Sch Chem & Chem Engn Nantong 226007 Peoples R China;

Natl Univ Singapore Dept Mat Sci & Engn Singapore 117575 Singapore;

Nantong Univ Sch Chem & Chem Engn Nantong 226007 Peoples R China;

Harbin Inst Technol Sch Chem Engn & Technol Harbin 150001 Heilongjiang Peoples R China;

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One-step reaction; Plant-inspired hybrid coatings; High hydrophilicity; Underwater superoleophobicity; Oil-in-water emulsion separation;

机译：一步反应;植物启发杂交涂料;高亲水性;水下超级化合物;水包油乳液分离;

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专利

1. One-step plant-inspired reaction that transform membrane hydrophobicity into high hydrophilicity and underwater super oleophobicity for oil-in-water emulsion separation [J] . Ding Liping, Wang Yanqing, Zhu Peng, Applied Surface Science . 2019,第JUNa15期

机译：一步法激发植物反应，将膜疏水性转化为高亲水性和水下超疏油性，用于水包油乳液分离
2. Mussel-Inspired Hybrid Coatings that Transform Membrane Hydrophobicity into High Hydrophilicity and Underwater Superoleophobicity for Oil-in-Water Emulsion Separation [J] . Wang Zhenxing, Jiang Xu, Cheng Xiquan, ACS applied materials & interfaces . 2015,第18期

机译：贻贝启发的杂化涂料，可将膜疏水性转变为高亲水性和水下超疏油性，用于水包油型乳液分离
3. One-step transformation of highly hydrophobic membranes into superhydrophilic and underwater superoleophobic ones for high-efficiency separation of oil-in-water emulsions [J] . Wang Zhenxing, Ji Shengqiang, He Fang, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第8期

机译：高效分离油包水乳液高效分离的高液体和水下水下超疏孔的一步转化
4. Enabling polyketone membrane with underwater superoleophobicity via a hydrogel-based modification for high-efficiency oil-in-water emulsion separation [C] . Yuandong Jia, Kecheng Guan, Lei Zhang 化学工学会秋季大会 . 2020

机译：通过水凝胶基改性，通过水凝胶改性使聚酮膜具有水凝胶的水性乳液分离
5. Formation and stability of oil-in-water emulsions made with beta-casein hydrophobic peptides. [D] . Siwakunakorn, Sasithorn. 2006

机译：用β-酪蛋白疏水肽制成的水包油乳液的形成和稳定性。
6. Eco-Friendly Superwetting Material for Highly Effective Separations of Oil/Water Mixtures and Oil-in-Water Emulsions [O] . Chih-Feng Wang, Sheng-Yi Yang, Shiao-Wei Kuo -1

机译：高效分离油/水混合物和水包油型乳液的环保型超湿材料
7. A superhydrophilic and underwater superoleophobic chitosan–TiO2 composite membrane for fast oil-in-water emulsion separation [O] . Yanqing Du, Yujiang Li, Tao Wu 2017

机译：一种超硫酸水下超级壳聚糖 - TiO2复合膜，用于快速水乳液分离
8. Combined Hydrophobic/Oleophobic Membrane Separation and Extraction for Fuel Treatment (Briefing Charts). [R] . Guenthner, A. J., Reams, J. T., Greeson, K. T., 2015

机译：结合疏水/疏油膜分离和提取燃料处理（简报图）。

One-step plant-inspired reaction that transform membrane hydrophobicity into high hydrophilicity and underwater super oleophobicity for oil-in-water emulsion separation

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