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Oil‐Water Separation: Facile and Green Route to Fabricate Bacterial Cellulose Membrane with Superwettability for Oil–Water Separation (Adv. Sustainable Syst. 7/2020)
Advanced Sustainable Systems ( IF 6.5 ) Pub Date : 2020-07-07 , DOI: 10.1002/adsu.202070015 Huazheng Sai 1 , Zhiqiang Jin 1 , Yutong Wang 1 , Rui Fu 1 , Yaxiong Wang 1 , Litong Ma 1
Advanced Sustainable Systems ( IF 6.5 ) Pub Date : 2020-07-07 , DOI: 10.1002/adsu.202070015 Huazheng Sai 1 , Zhiqiang Jin 1 , Yutong Wang 1 , Rui Fu 1 , Yaxiong Wang 1 , Litong Ma 1
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In article number 2000042, Huazheng Sai, Rui Fu and co‐workers report an environmentally friendly fabrication process to obtain bacterial cellulose membranes with superwettability for oil‐water separation. The ultrafine nanofiber web‐like structure and the intrinsic hydrophilicity of bacterial cellulose endow the membrane with superwettability and high oil‐water separation efficiencies for both oil‐water mixtures and emulsions.
中文翻译:
油水分离:制造具有超高吸油性的细菌纤维素膜的简便而绿色的路线,以用于油水分离(可持续发展系统建议7/2020)
Saizheng Sai,Rui Fu及其同事在文章编号2000042中报告了一种环境友好的制造工艺,以获得具有超润湿性的细菌纤维素膜,用于油水分离。超细的纳米纤维网状结构和细菌纤维素的固有亲水性使该膜具有超润湿性,并且油水混合物和乳液均具有很高的油水分离效率。
更新日期:2020-07-07
中文翻译:
油水分离:制造具有超高吸油性的细菌纤维素膜的简便而绿色的路线,以用于油水分离(可持续发展系统建议7/2020)
Saizheng Sai,Rui Fu及其同事在文章编号2000042中报告了一种环境友好的制造工艺,以获得具有超润湿性的细菌纤维素膜,用于油水分离。超细的纳米纤维网状结构和细菌纤维素的固有亲水性使该膜具有超润湿性,并且油水混合物和乳液均具有很高的油水分离效率。
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