纳米二氧化钛-聚合物复合材料去除无机/有机污染物的研究进展Research Progress on Removal of Inorganic/organic Pollutants by Nano-TiO_2-Polymer Composites
潘素素;郑智阳;惠俊杰;肖哲;仲雪莲;王有群;
摘要(Abstract):
大量无机和有机污染物对生态环境有潜在危害。为去除这些污染物,已研发出一系列材料,其中纳米二氧化钛因制备原料低廉、制备过程简单及吸附和光催化性能优良而受到广泛关注。但纳米二氧化钛本身具有吸附量低、吸附后不易材料分离、只能吸收紫外光等缺点,需与其他材料进行复合来提高其性能。主要介绍了二氧化钛与一些聚合物材料的复合材料及用于去除无机和有机污染物的研究进展。
关键词(KeyWords): 纳米二氧化钛;聚合物;吸附;光催化
基金项目(Foundation):
作者(Authors): 潘素素;郑智阳;惠俊杰;肖哲;仲雪莲;王有群;
DOI: 10.13355/j.cnki.sfyj.2019.01.001
参考文献(References):
- [1] ZHANG Yongxing,JIA Yong.A facile solution approach for the synthesis of akaganéite(β-FeOOH)nanorods and their ion-exchange mechanism toward As(Ⅴ)ions[J].Applied Surface Science,2014,290:102-106.
- [2] CARREIRA-BARRAL I,MATO-IGLESIAS M,DE BLAS A,et al.Ditopic receptors containing urea groups for solvent extraction of Cu(Ⅱ)salts[J].Dalton Transactions,2017,46(10):3192-3206.
- [3]MOHAN D,SARSWAT A,OK Y S,et al.Organic and inorganic contaminants removal from water with biochar,a renewable,low cost and sustainable adsorbent:a critical review[J].Bioresource Technology,2014,160:191-202.
- [4] LIU Xia,LI Jiaxing,WANG Xiangxue,et al.High performance of phosphate-functionalized graphene oxide for the selective adsorption of U(Ⅵ)from acidic solution[J].Journal of Nuclear Materials,2015,466:56-64.
- [5] MARTINS P,GOMEZ V,LOPES A,et al.Improving photocatalytic performance and recyclability by development of Er-doped and Er/Pr-codoped TiO2/poly(vinylidene difluoride)-trifluoroethylene composite membranes[J].The Journal of Physical Chemistry:C,2014,118(48):27944-27953.
- [6] LI Shaolin,WANG Wei,LIANG Feipeng,et al.Heavy metal removal using nanoscale zero-valent iron(nZVI):theory and application[J].Journal of Hazardous Materials,2017,322:163-171.
- [7] LAI Youlei,MENG M,YU Yifu,et al.Photoluminescence and photocatalysis of the flower-like nano-ZnO photocatalysts prepared by a facile hydrothermal method with or without ultrasonic assistance[J].Applied Catalysis:B:Environmental,2011,105(3/4):335-345.
- [8]QIU Jingxia,ZHANG Shanqing,ZHAO Huijun.Recent applications of TiO2 nanomaterials in chemical sensing in aqueous media[J].Sensors and Actuators:B:Chemical,2011,160(1):875-890.
- [9] ZHOU Qingxiang,HUANG Yunrui,XIAO Junping,et al.Micro-solid phase equilibrium extraction with highly ordered TiO2 nanotube arrays:a new approach for the enrichment and measurement of organochlorine pesticides at trace level in environmental water samples[J].Analytical and Bioanalytical Chemistry,2011,400(1):205-212.
- [10] ZHU Yingchun,DING Chuanxian.Characterization of plasma sprayed nano-titania coatings by impedance spectroscopy[J].Journal of the European Ceramic Society,2000,20(2):127-132.
- [11] HAN Zhiyue,ZHANG Jingchang,YANG Xiuying,et al.Synthesis and photoelectric property of poly(3-octylthiophene)/titanium dioxide nano-composite material[J].Journal of Materials Science:Materials in Electronics,2010,21(6):554-561.
- [12] NOWOTNY J,BAK T,NOWOTNY M,et al.Titanium dioxide for solar-hydrogen:Ⅰ:Functional properties[J].International Journal of Hydrogen Energy,2007,32(14):2609-2629.
- [13] PARK J H,KIM S,BARD A J.Novel carbon-doped TiO2nanotube arrays with high aspect ratios for efficient solar water splitting[J].Nano Letters,2006,6(1):24-28.
- [14] FANG Guozhen,GAO Wei,DENG Qiliang,et al.Highly selective capture of phosphopeptides using a nano titanium dioxide-multiwalled carbon nanotube nanocomposite[J].Analytical Biochemistry,2012,423(2):210-217.
- [15] GIAMMAR D E,MAUS C J,XIE Liyun.Effects of particle size and crystalline phase on lead adsorption to titanium dioxide nanoparticles[J].Environmental Engineering Science,2007,24(1):85-95.
- [16] MEHRIZAD A,ZARE K,AGHAIE H,et al.Removal of4-chloro-2-nitrophenol occurring in drug and pesticide waste by adsorption onto nano-titanium dioxide[J].International Journal of Environmental Science and Technology,2012,9(2):355-360.
- [17] GAYA U I,ABDULLAH A H.Heterogeneous photocatalytic degradation of organic contaminants over titanium dioxide:a review of fundamentals,progress and problems[J].Journal of Photochemistry and Photobiology:C:Photochemistry Reviews,2008,9(1):1-12.
- [18] KWON C H,SHIN H,KIM J H,et al.Degradation of methylene blue via photocatalysis of titanium dioxide[J].Materials Chemistry and Physics,2004,86(1):78-82.
- [19] SAKTHIVEL S,KISCH H.Daylight photocatalysis by carbon-modified titanium dioxide[J].Angewandte Chemie International Edition,2003,42(40):4908-4911.
- [20] LI Zhen,CONG Shan,XU Yiming.Brookite vs anatase TiO2in the photocatalytic activity for organic degradation in water[J].Acs Catalysis,2014,4(9):3273-3280.
- [21] ERHAYEM M,SOHN M.Effect of humic acid source on humic acid adsorption onto titanium dioxide nanoparticles[J].Science of the Total Environment,2014,470:92-98.
- [22] GEORGE M,ABRAHAM E T.Polyionic hydrocolloids for the intestinal delivery of protein drugs:alginate and chitosan:a review[J].Journal of Controlled Release,2006,114(1):1-14.
- [23] NISHAD P A,BHASKARAPILLAI A,VELMURUGAN S.Nano-titania-crosslinked chitosan composite as a superior sorbent for antimony(Ⅲ)and(Ⅴ)[J].Carbohydrate polymers,2014,108:169-175.
- [24] YAZDANI M,BHATNAGAR A,VAHALA R.Synthesis,characterization and exploitation of nano-TiO2/feldspar-embedded chitosan beads towards UV-assisted adsorptive abatement of aqueous arsenic(As)[J].Chemical Engineering Journal,2017,316:370-382.
- [25] PINKERT A,MARSH K N,PANG S,et al.Ionic liquids and their interaction with cellulose[J].Chemical Reviews,2009,109(12):6712-6728.
- [26] GARDNER D J,OPORTO G S,MILLS R,et al.Adhesion and surface issues in cellulose and nanocellulose[J].Journal of Adhesion Science and Technology,2008,22(5/6):545-567.
- [27] LI Yanxiang,CAO Lixia,LI Lei,et al.In situ growing directional spindle TiO2nanocrystals on cellulose fibers for enhanced Pb(2+)adsorption from water[J].Journal of Hazardous Materials,2015,289:140-148.
- [28] SUN Xiaoxia,WANG Kunpeng,SHU Yu,et al.One-pot route towards active TiO2doped hierarchically porous cellulose:highly efficient photocatalysts for methylene blue degradation[J].Materials(Basel),2017,10(4):373.
- [29] ZHANG Lina,ZHOU Daochun,WANG Hao,et al.Ion exchange membranes blended by cellulose cuoxam with alginate[J].Journal of Membrane Science,1997,124(2):195-201.
- [30] THAKUR S,AROTIBA O.Synthesis,characterization and adsorption studies of an acrylic acid-grafted sodium alginatebased TiO2 hydrogel nanocomposite[J].Adsorption Science&Technology,2018,36(1/2):458-477.
- [31] LIU Yunguo,HU Xinjiang,WANG Hui,et al.Photoreduction of Cr(Ⅵ)from acidic aqueous solution using TiO2-impregnated glutaraldehyde-crosslinked alginate beads and the effects of Fe(Ⅲ)ions[J].Chemical Engineering Journal,2013,226:131-138.
- [32] CAO Yong,SMITH P,HEEGER A J.Counter-ion induced processibility of conducting polyaniline and of conducting polyblends of polyaniline in bulk polymers[J].Synthetic Metals,1992,48(1):91-97.
- [33] LI Xueyan,WANG Desong,CHENG Guoxiang,et al.Preparation of polyaniline-modified TiO2nanoparticles and their photocatalytic activity under visible light illumination[J].Applied Catalysis:B:Environmental,2008,81(3/4):267-273.
- [34]WANG Ning,FENG Jiangtao,CHEN Jie,et al.Adsorption mechanism of phosphate by polyaniline/TiO2composite from wastewater[J].Chemical Engineering Journal,2017,316:33-40.
- [35] LI Wei,TIAN Yi,ZHAO Chenhui,et al.Synthesis of magnetically separable Fe3O4@PANI/TiO2photocatalyst with fast charge migration for photodegradation of EDTA under visible-light irradiation[J].Chemical Engineering Journal,2016,303:282-291.
- [36] LIN Yangming,LI Danzhen,HU Junhua,et al.Highly efficient photocatalytic degradation of organic pollutants by pANI-Modified TiO2 composite[J].The Journal of Physical Chemistry:C,2012,116(9):5764-5672.
- [37] GUO Na,LIANG Yimai,LAN Shi,et al.Microscale hierarchical three-dimensional flowerlike TiO2/PANI composite:synthesis,characterization,and its remarkable photocatalytic activity on organic dyes under UV-light and sunlight irradiation[J].The Journal of Physical Chemistry:C,2014,118(32):18343-18355.
- [38] ZHANG Lina,ZHOU Daochun,WANG Hao.Surface electric properties of polypyrrole in aqueous solutions[J].Langmuir,2003,19(26):10703-10709.
- [39] LI Jingjing,FENG Jiangtao,YAN Wei.Excellent adsorption and desorption characteristics of polypyrrole/TiO2composite for methylene blue[J].Applied Surface Science,2013,279:400-408.
- [40] FENG Jiangtao,CHEN Jie,WANG Ning,et al.Enhanced adsorption capacity of polypyrrole/TiO2composite modified by carboxylic acid with hydroxyl group[J].RSC Adv,2016,6(48):42572-42580.
- [41] YANG Yucheng,WEN Junwei,WEI Jianhong,et al.Polypyrrole-decorated Ag-TiO2nanofibers exhibiting enhanced photocatalytic activity under visible-light illumination[J].ACS Applied Materials&Interfaces,2013,5(13):6201-6207.
- [42] LUO Qingzhi,LI Xueyan,WANG Deson,et al.Photocatalytic activity of polypyrrole/TiO2 nanocomposites under visible and UV light[J].Journal of Materials Science,2010,46(6):1646-1654.
- [43] LIA Xiangcun,JIANG Guanglan,HE Gaohong,et al.Preparation of porous PPyTiO2 composites:Improved visible light photoactivity and the mechanism[J].Chemical Engineering Journal,2014,236:480-489.
- [44] LEE J M,LEE S J,JUNG Y J,et al.Fabrication of nanostructured polythiophene nanoparticles in aqueous dispersion[J].Current Applied Physics,2008,8(6):659-663.
- [45] CHEN Jie,FENG Jiangtao,YAN Wei.Facile synthesis of apolythiophene/TiO2particle composite in aqueous medium and its adsorption performance for Pb(Ⅱ)[J].RSC Adv,2015,5(106):86945-86953.
- [46] LI Yongfang,ZOU Yingping.Conjugated polymer photovoltaic materials with broad absorption band and high charge carrier mobility[J].Advanced Materials,2008,20(15):2952-2958.
- [47] RAVI CHANDRA M,SIVA RAO T,PAMMI S V N,et al.An enhanced visible light active rutile titania-copper/polythiophene nanohybrid material for the degradation of rhodamine B dye[J].Materials Science in Semiconductor Processing,2015,30:672-681.
- [48] KALYANI R,GURUNATHAN K.PTh-rGO-TiO2nanocomposite for photocatalytic hydrogen production and dye degradation[J].Journal of Photochemistry&Photobiology:A:Chemistry,2016,329:105-112.