期刊论文

Ruibin Wang<&wdkj&>Yonggang Min

英文

Nanomaterials

2079-4991

2022

12

18

3094-

10.3390/nano12183094

Conceptualization, S.Z., R.W., Y.L. and Y.M.; methodology, S.Z. and R.W.; validation, S.Z., Z.W. and X.L.; formal analysis, Z.W. and T.F.; investigation, S.Z. and X.L.; resources, Y.L.; data curation, S.Z.; writing—original draft preparation, S.Z.; writing—review and editing, S.Z. and R.W.; visualization, M.C.; supervision, R.W., Y.L. and Y.M.; project administration, Y.L. and Y.M.; funding acquisition, Y.M. All authors have read and agreed to the published version of the manuscript. This work was supported by the by National Key R&D Program of China (2020YFB0408100), NSFC (U20A20340), the Program for Guangdong Introducing Innovative and Entrepreneurial Team (2016ZT06C412), Guangzhou Hongmian Project (HMJH-2020-0012) and Foshan Introducing Innovative and Entrepreneurial Teams (1920001000108).

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Due to its unique physical and chemical properties, MXene has recently attracted much attention as a promising candidate for wastewater treatment. However, the low water permeation flux of MXene membrane remains a challenge that has not been fully solved. In this study, attapulgite was used to increase the flux of MXene membrane through a facile one-pot method, during which the MXene nanosheets were self-assembled while being intercalated by the attapulgite nanorods to finally form the composite membranes. Under optimal conditions, an increase of water permeation flux of 97.31% could be observ...