Author: "Ma, Faguang" - Searchworks@Jio Institute Digital Library Search Results

Author: Zhang, Kaicheng, Li, Yue, Diao, Zequan, Cui, Hang, Ma, Faguang, Yan, Ming, and Wu, Yilin
Published: 2023
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17. Discontinuous cooperative imprinting idea based on MXene-nanocomposite membrane for high structurally stable recognition and separation of shikimic acid

Author: Wu, Yilin, Lin, Rongxin, Zhang, Kaicheng, Yan, Jing, Ma, Faguang, Zhen, Jingjing, and Pan, Jianming
Published: 2023
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18. Design of molecularly imprinted nanocomposite membrane for selective separation of lysozyme based on double-faced self-assembly strategy

Author: Song, Jianping, Yu, Chao, Ma, Faguang, Lin, Rongxin, Gao, Lili, Yan, Yongsheng, and Wu, Yilin
Published: 2023
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19. Double-imprinted mixed matrix membranes with polydopamine-induced nanocomposite for selective recognition and separation applications

Author: Ma, Faguang, Wu, Yilin, Guo, Qingyan, Lin, Rongxin, and Zhang, Kaicheng
Published: 2022
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20. Polydopamine-based multilevel molecularly imprinted nanocomposite membranes comprising metal organic frameworks for selective recognition and separation

Author: Yan, Ming, Jiang, Fan, Fei, Hangtao, Ma, Faguang, Yan, Jing, and Wu, Yilin
Published: 2022
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21. Dual-imprinted mixed matrix membranes for selective recognition and separation: A synergetic imprinting strategy based on complex initiation system

Author: Wu, Yilin, Lin, Rongxin, Ma, Faguang, Yan, Jing, Sun, Yuming, Jia, Shuhan, and Gao, Jia
Published: 2022
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22. Dual-imprinted organic/inorganic nanocomposite membranes with highly selective polydopamine-intimated nanostructures for pharmaceutically active compound separation

Author: Wu, Yilin, Zhang, Kaicheng, Lin, Rongxin, Ma, Faguang, and Gao, Jia
Published: 2021
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23. Membrane-associated molecularly imprinted surfaces with tailor-made SiO2@polydopamine-based recognition sites for selective separation of artemisinin

Author: Wu, Yilin, Lin, Rongxin, Ma, Faguang, and Jiang, Zhongyi
Published: 2021
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24. Three-dimensional macroporous wood-based selective separation membranes decorated with well-designed Nd(III)-imprinted domains: A high-efficiency recovery system for rare earth element

Author: Wu, Yilin, Lin, Rongxin, Ma, Faguang, Xing, Wendong, and Pan, Jianming
Published: 2021
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25. Accelerating the design of multilevel/hierarchical imprinted membranes for selective separation applications: A biomass-activated carbon/GO-based loading system

Author: Wu, Yilin, Lin, Rongxin, Ma, Faguang, Xing, Wendong, Gao, Jia, Lin, Xinyu, Lu, Jian, Yu, Chao, and Yan, Ming
Published: 2020
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26. Three-dimensional basswood-based membrane with well-designed multilevel/hierarchical imprinting surface: A high-efficiency selective separation system

Author: Wu, Yilin, Xing, Wendong, Ma, Faguang, Gao, Jia, Lin, Xinyu, Lu, Jian, Yu, Chao, and Yan, Ming
Published: 2020
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27. Double-layer-based molecularly imprinted membranes for template-dependent recognition and separation: An imitated core-shell-based synergistic integration design

Author: Wu, Yilin, Lu, Jian, Xing, Wendong, Ma, Faguang, Gao, Jia, Lin, Xinyu, Yu, Chao, and Yan, Ming
Published: 2020
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28. Multilevel mineral-coated imprinted nanocomposite membranes for template-dependent recognition and separation: A well-designed strategy with PDA/CaCO3-based loading structure

Author: Wu, Yilin, Xing, Wendong, Yan, Junzhi, Cui, Jiuyun, Ma, Faguang, Gao, Jia, Lu, Jian, Yu, Chao, and Yan, Ming
Published: 2020
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29. Synthesis of metal-organic framework hybrid nanocomposites based on MOFs@C3N4 with high selective separation ability for luteolin

Author: Zhen, Jingjing, primary, Ma, Faguang, additional, Yan, Jing, additional, Lin, Rongxin, additional, Yan, Ming, additional, and Wu, Yilin, additional
Published: 2023
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30. Mof-based basswood nanocomposite membrane of PDDA framework for ultrafast recognition and separation of ribavirin

Author: Ma, Faguang, primary, Yan, Ming, additional, and Wu, Yilin, additional
Published: 2023
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31. Biomimetic Dual-Layer Imprinted UiO-66-Based Basswood Membranes for Ibuprofen Recognition and Separation

Author: Ma, Faguang, primary, Yan, Ming, additional, Lin, Xue, additional, Lin, Rongxin, additional, and Wu, Yilin, additional
Published: 2023
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32. Nanofluid-based wooden imprinted membranes with precise-designed nanocages for ultrafast and super-sensitive recognition and separation

Author: Ma, Faguang, primary, Zhen, Jingjing, additional, and Wu, Yilin, additional
Published: 2023
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33. Permselective and Transparent Wooden Membrane with Artemisinin-Imprinted Nanocages Based on a Mofs@C3n4 Self-Assembly Design

Author: Yan, Jing, primary, Ma, Faguang, additional, and Wu, Yilin, additional
Published: 2023
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34. Mof-Initiated Imprinted Self-Supporting Basswood Membranes for Precise Recognition and Separation

Author: Yan, Ming, primary, Jia, Shuhan, additional, Ma, Faguang, additional, Lin, Xue, additional, Wu, Yilin, additional, and Pan, Jianming, additional
Published: 2023
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35. Continuous-Imprinted-Layer Nanofiber Membrane with MXene-Based Precise-Designed Nanocages for High-Accuracy Recognition

Author: Wu, Yilin, primary, Lin, Rongxin, additional, Zhen, Jingjing, additional, Ma, Faguang, additional, Zhang, Kaicheng, additional, Yan, Jing, additional, and Lu, Jian, additional
Published: 2022
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36. Precise Identification and Ultrafast Transport of Specific Molecules with Nanofluid-Functionalized Imprinted Membrane

Author: Zhang, Kaicheng, primary, Yan, Ming, additional, Li, Yue, additional, Ma, Faguang, additional, and Wu, Yilin, additional
Published: 2022
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37. MOF/Bilayer/Basswood Nanocomposite Membranes with Multi-Fold Imprinting Pattern for Specific Compound Recognition and Separation

Author: Ma, Faguang, primary, Yan, Ming, additional, Lin, Xue, additional, Zhang, Kaicheng, additional, Lin, Rongxin, additional, and Wu, Yilin, additional
Published: 2022
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38. Discontinuous Cooperative Imprinting Idea Based on Mxene-Nanocomposite Membrane for High Structurally Stable Recognition and Separation

Author: Wu, Yilin, primary, Lin, Rongxin, additional, Zhang, Kaicheng, additional, Yan, Jing, additional, Ma, Faguang, additional, Zhen, Jingjing, additional, and Lin, Xue, additional
Published: 2022
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39. Mesoporous, There-Dimensional Uio-66/Basswood-Based Nanocomposite Imprinted Membrane Decorated with Dual-Imprinted System for Highly Efficient Selective Separation

Author: Ma, Faguang, primary, Guo, Qingyan, additional, Lin, Xue, additional, Zhang, Kaicheng, additional, Lin, Rongxin, additional, and Wu, Yilin, additional
Published: 2022
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40. Precise Identification and Transport of Specific Molecules Through Framework-Functionalized Membranes with Multiple Binding Sites

Author: Zhang, Kaicheng, primary, Li, Yue, additional, Diao, Zequan, additional, Cui, Hang, additional, Ma, Faguang, additional, Yan, Ming, additional, and Wu, Yilin, additional
Published: 2022
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41. Mixed matrix nanocomposite imprinted membranes with multilevel hierarchical structure for high-efficiency selective recognition and separation: A bioinspired dual-imprinted strategy

Author: Wu, Yilin, primary, Xia, Haian, additional, Guo, Qingyan, additional, Ma, Faguang, additional, Zhang, Kaicheng, additional, and Pan, Jianming, additional
Published: 2021
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42. Multilevel/hierarchical nanocomposite-imprinted regenerated cellulose membranes for high-efficiency separation: a selective recognition method with Au/PDA-loaded surface

Author: Yan, Ming, primary, Wu, Yilin, additional, Lin, Rongxin, additional, Ma, Faguang, additional, and Jiang, Zhongyi, additional
Published: 2021
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43. Multiple-functional molecularly imprinted nanocomposite membranes for high-efficiency selective separation applications: An imitated core-shell TiO2@PDA-based MIMs design

Author: Wu, Yilin, primary, Xing, Wendong, additional, Meng, Minjia, additional, Lu, Jian, additional, Ma, Faguang, additional, Gao, Jia, additional, Lin, Xinyu, additional, and Yu, Chao, additional
Published: 2020
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44. Freestanding flexible molecularly imprinted nanocomposite membranes for selective separation applications: an imitated core–shell PEI@SiO2-based MIM design

Author: Ma, Faguang, primary, Yan, Yan, additional, Yu, Zhixin, additional, Wu, Yilin, additional, and Liu, Xinlin, additional
Published: 2020
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45. Freestanding flexible molecularly imprinted nanocomposite membranes for selective separation applications: an imitated core–shell PEI@SiO2-based MIM design.

Author: Ma, Faguang, Yan, Yan, Yu, Zhixin, Wu, Yilin, and Liu, Xinlin
Subjects: *MEMBRANE separation, *WATER pollution, *POLLUTION, *SEPARATION (Technology), *WATER purification, *IMPRINTED polymers, *POLYVINYLIDENE fluoride
Abstract: The development of molecularly imprinted membranes (MIMs) has promoted applications of membrane-based separation technology, which has shown considerable advantages in water treatment, chemical separation and drug purification. Herein, imitated core–shell PEI@SiO2-based enoxacin-imprinted nanocomposite membranes (SPEIMs) were developed by mixing polyethylenimene-modified silica nanoparticles with polyvinylidene fluoride powder under freezing operation. As a typical and hazardous water pollutant, enoxacin was selected as the template molecule. Morphology and chemical characterizations were explored for an insightful analysis of the obtained membranes. Based on the organic–inorganic hybrid strategy, the as-prepared SPEIMs exhibited superior selectivity towards the target (enoxacin). Satisfactory adsorption performance (55.94 mg g−1), permeability (3.22 for norfloxacin/enoxacin and 7.07 for ciprofloxacin/enoxacin) and regeneration performance (90.31%) were achieved onto SPEIMs. The products and methods obtained in this work would potentially enrich the applications of MIMs in pollution control and biochemical separation. [ABSTRACT FROM AUTHOR]
Published: 2020
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