[1]周红娟,师文钊,陆少锋,等.油水分离用纤维素基多孔复合材料研究现状[J].中国材料进展,2023,42(05):391-397.[doi:10.7502/j.issn.1674-3962.202105015]
 ZHOU Hongjuan,SHI Wenzhao,LU Shaofeng,et al.Review on CelluloseBased Porous Composite Materialsfor Oil-Water Separation[J].MATERIALS CHINA,2023,42(05):391-397.[doi:10.7502/j.issn.1674-3962.202105015]
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油水分离用纤维素基多孔复合材料研究现状()
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中国材料进展[ISSN:1674-3962/CN:61-1473/TG]

卷:
42
期数:
2023年第05期
页码:
391-397
栏目:
出版日期:
2023-05-30

文章信息/Info

Title:
Review on CelluloseBased Porous Composite Materialsfor Oil-Water Separation
文章编号:
1674-3962(2023)05-0391-07
作者:
周红娟1师文钊1陆少锋1刘瑾姝12马超群1张曼妍1崔杉杉1苏国鑫1
1.西安工程大学纺织科学与工程学院,陕西 西安 710048 2.西北工业大学化学与化工学院,陕西 西安 710129
Author(s):
ZHOU Hongjuan1 SHI Wenzhao1 LU Shaofeng1 LIU Jinshu12MA Chaoqun1 ZHANG Manyan1 CUI Shanshan1 SU Guoxin1
1. School of Textile Science and Engineering, Xi’an Polytechnic University, Xian 710048, China 2. School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, Xi‘an 710129, China
关键词:
纤维素多孔复合材料制备改性油水分离
Keywords:
cellulose porous composite material preparation modification oil-water separation
分类号:
TB34
DOI:
10.7502/j.issn.1674-3962.202105015
文献标志码:
A
摘要:
油水分离是解决水体油类污染的有效途径,纤维素基多孔复合材料作为油水分离材料,具有特殊的表面润湿性、高吸附性、可循环性和低成本等优点,受到了研究者的广泛关注。综述了油水分离用纤维素基多孔复合材料的制备方法,包括静电纺丝法、化学交联法、溶胶凝胶法、冷冻干燥法和3D打印法,介绍了高温碳化、化学气相沉积和表面涂层3种对纤维素基多孔复合材料进行疏水改性的方法,总结了不同改性方法对多孔复合材料油水分离性能的影响。阐述了现有材料制备方法和改性方法存在的问题,并展望了用于油水分离的纤维素基多孔复合材料的发展方向。
Abstract:
Oil-water separation is an effective way to solve oil pollution of water. Cellulose-based porous composite materials are widely used to separate oil and water, due to the characteristics such as special surface wettability, high adsorption, recyclability and low cost. In this article, the preparation methods for cellulosebased porous composite materials for oil-water separation, including electrostatic spinning, chemical crosslinking, solgel, freeze-drying, and 3D printing were reviewed. The methods of hydrophobic modification for cellulose-based porous composite materials, including high-temperature carbonization, chemical vapor deposition and surface coating were introduced, and the effects of different modification methods on the oil-water separation property were summarized. The existed problems of material preparation methods and modification methods were discussed, and the development direction of cellulose-based porous composite materials for oil-water separation was prospected.

参考文献/References:

\[1\]SAI H Z,JIN Z Q,WANG Y T,et al. Advanced Sustainable Systems\[J\],2020,4(7): 2000042. \[2\]ZHU J D,ZHAO F X,PENG T P,et al. Surface and Coatings Technology\[J\],2020,402: 126344. \[3\]LIU Y N,QU R X,LI X Y,et al. Applied Surface Science\[J\],2020,532: 147350. \[4\]MEENAKSHI M,SHANTANU R. Aiche Journal\[J\],2017,63(10): 4379-4389. \[5\]WANG D,QIAO C,ZHAO Z,et al. Energy & Fuels\[J\],2020,34(11): 13893-13902. \[6\]KRZYSZTOF K,MAREK G. Chemical Papers\[J\],2017,71(6): 1165-1173. \[7\]LU T,ZHANG S,QI D M,et al. Journal of Colloid and Interface Science\[J\],2018,518: 76-83. \[8\]PAWEL K,PRZEMYSLAW P,PAULINA S. Ecological Chemistry and Engineering S\[J\],2015,22(2): 285-299. \[9\]WANG H Q,LI J C,YU X,et al. Cellulose\[J\],2021,28(2): 949-960. \[10\]YANG S D,CHEN L,LIU S,et al. Journal of Hazardous Materials\[J\],2021,408: 124408. \[11\]YI L F,YANG J Y,FANG X,et al. Journal of Hazardous Materials\[J\],2020,385: 121507. \[12\]CUI M F,LI Y H,SUN Y,et al. Journal of Polymers and the Environment\[J\],2021,29: 2227-2235. \[13\]YU T L,FATIMA H,DOLCI M,et al. Chemical Engineering Journal\[J\],2020,384: 123339. \[14\]ZHANG T,ZHAO Y,MICHAEL S S. Cellulose\[J\],2020,27(7): 4007-4018. \[15\]ZHANG Y,YIN M L,LIN X H,et al. Chemical Engineering Journal\[J\],2019,371: 306-313. \[16\]YANG Y C,PENG P,YANG Q,et al. Applied Surface Science\[J\],2020,530:147163. \[17\]ZHU W X,HUANG W,ZHOU W H,et al. Carbohydrate Polymers\[J\],2020,245: 116587. \[18\]ZHANG T,WANG D,LIU R,et al. ACS Omega\[J\], 2020,5(29): 18105-18113. \[19\]SHU D K,XI P,CHENG B W,et al. International Journal of Biological Macromolecules\[J\],2020,162: 1536-1545. \[20\]WANG W W,LIN J X,CHENG J Q,et al. Journal of Hazardous Materials\[J\],2020,385: 121582. \[21\]AO C H,ZHAO J Q,XIA T,et al. Separation and Purification Technology\[J\],2021,254: 117603. \[22\]MOUSA H M,ALFADHEL H,ABOUEL N E. Polymers\[J\],2020,12(11): 2597. \[23\]XIONG C D,QUAN Z Z,ZHANG H Z,et al. Applied Surface Science\[J\],2020,532: 147400. \[24\]YU Y C,SHI X L,LIU L,et al. Journal of Materials Science\[J\],2021,56(3): 2763-2776. \[25\]XU X, LONG Y W, LI Q,et al. Journal of Cleaner Production\[J\],2019,211: 1463-1470. \[26\]ZHANG Y,YIN M L,LI L,et al. Carbohydrate Polymers\[J\],2020,243: 116461. \[27\]YANG W J,ANTHONY C Y Y,LI A,et al. Cellulose\[J\],2019,26(11): 6449-6476. \[28\]ZHAO Y F,ZHONG K,LIU W,et al. Cellulose\[J\],2020,27(13): 7663-7675. \[29\]XIE A,CUI J Y,CHEN Y Y,et al. Surface and Coatings Technology\[J\],2019,361: 19-26. \[30\]ZHU J,JIANG J X,MUHAMMAD I J,et al. Langmuir\[J\], 2020, 36(37):10960-10969. \[31\]BUCHTOV N,PRADILLE C,BOUVARD J L,et al. Soft Matter\[J\],2019,15(39): 7901-7908. \[32\]MOHAMMAD K J,OSSI L,HENRIKKI L. Materials & Design\[J\],2019,183: 108115. \[33\]ZHOU S, YOU T, ZHANG X,et al. ACS Applied Nano Materials\[J\],2018,1(5): 2095-2103. \[34\]ZHUO L H,MA C,XIE F,et al. Cellulose\[J\],2020,27(13): 7677-7689. \[35\]LI V,MULYADI A,DUNN C,et al. ACS Sustainable Chemistry & Engineering\[J\],2017,6(2): 2011-2022. \[36\]LI X P,SHAN H T,ZHANG W,et al. Separation and Purification Technology\[J\],2020,237: 116324. \[37\]KOH J J,LIM GWENDOLYN J H,ZHOU X,et al. ACS Applied Materials & Interfaces\[J\],2019,11(14): 13787-13795. \[38\]XU Z Y,ZHOU H,TAN S C,et al. Beilstein Journal of Nanotechnology\[J\],2018,9: 508-519. \[39\]ZHOU L J,XU Z Y. Journal of Hazardous Materials\[J\],2020,388: 121804. \[40\]LONG S S,FENG Y C,LIU Y Z,et al. Separation and Purification Technology\[J\],2021,254: 117577. \[41\]YU L,ZHANG Z,TANG H,et al. Cellulose\[J\],2019,26(6): 4021-4037. \[42\]WANG J T,LIU S Y. Separation and Purification Technology\[J\],2019,221: 303-310. \[43\]GONG X Y,WANG Y X,ZENG H B,et al. Nanotechnology Weekly\[J\],2019,7(13): 11118-11128. \[44\]ZHOU L J,ZHAI S C,CHEN Y M,et al. Polymers\[J\],2019,11(4): 712. \[45\]MI H Y,LI H,JING X,et al. Cellulose\[J\],2020,27(15): 8909-8922. \[46\]CHATTERJEE S, KE W T, LIAO Y C. Journal of the Taiwan Institute of Chemical Engineers\[J\],2020,111: 261-269. \[47\]LU Y Q,NIU Z X,YUAN W. Applied Surface Science\[J\],2019,480: 851-860.

备注/Memo

备注/Memo:
收稿日期: 2021-05-14  修回日期: 2021-06-28 基金项目: 中国纺织工业联合会科技指导性计划项目(2019046, 2020039)
更新日期/Last Update: 2023-05-10