參考文獻

[1]　Matthews R W.Study of photoelectrocatalytic degradation of sulfosalicylic acid[J].J Catal,1988,113:549.

[2]　傅宏剛,王建強,王哲,等.TiO₂光催化劑表面修飾研究進展[J].黑龍江大學自然科學學報,2001,18(3):85.

[3]　Spanhel L,Haase M,Weller H,et al.Photochemistry of colloidal semiconductors.20.surface modification and stability of strong luminescing CdS particles[J].J Am Chem Soc,1987,109:5649.

[4]　Rothenberger G,Moser J,Gratzel M,et al.Laser??ash?photolysis?spectroscopy:a nondestructive method[J].J Am Chem Soc,1985,107:8054.

[5]　Howe R F,Gratzel M.EPR study of hydrated anatase under UV irradiation[J].J Phy Chem,1987,91:3906.

[6]　Gratzel M.Heterogeneous photochemical electron transfer[M].Boca Raton:CRC Press,1989.

[7]　張彭義,余剛,蔣展鵬.半導體光催化劑及其改性技術進展[J].環境科學進展,1997,5(3):1.

[8]　Ramanmurthy V.Photochemistry in organized and constrained media[J].New York:VCH,1991.　

[9]　Zhou X L,Zhu X Y,White J M.Surface plasmon enhanced substracte methed photochemis on catalysts[J].trySurf Sci Rep,1991,13:73.

[10]　王傳義,劉春艷,沈濤.半導體光催化劑的表面修飾[J].高等學校化學學報,1998,19(12):2013.

[11]　Poznyak S K,Pergushov V J,KoKorn A I,et al.Highly efficient rutile TiO₂ photocatalysts with single Cu(Ⅱ)and Fe(Ⅲ)surface catalytic sites[J].J Phys Chem B,1999,103:1308.

[12]　崔玉民,范少華.復合納米微粒Rh³⁺/TiO₂/SnO₂的合成、表征及光催化降解4?(2?吡啶偶氮)間苯二酚的研究[J].感光科學與光化學,2003,21(3):161.

[13]　Bedia I,Prashant V Kamat.Particle networks from powder mixtures:Generation of TiO₂?SnO₂ heterojunctions via surface charge?induced heteroaggregation[J].J Phys Chem,1995,99:9182.

[14]　Vogel R,Hoger P,Waller H.Preparation of CNT?TiO₂?SiO₂ composite material by CVD process[J].J Phys Chem,1994,98:3183.

[15]　Vogel R,Pohl K,Waller H.Science and engineering of electrospun nanofiber for size and shape control of CdSe?TiO₂ [J].Chem Phys Lett,1990,174:241.

[16]　Minero C,Mariella G,Maurino V,et al.Photocatalytic transformation of organic compounds in the presence of inorganic anions.1.hydroxyl?mediated and direct electron?transfer reactions of phenol on a titanium dioxide?fluoride system[J].Langmuir,2000,16:2632.

[17]　Andrew M,Sian M.Effect of permanent magnetic field on the photo?catalytcc degradation of soluble chlorobenzene in water with TiO₂[J].J Photochem and Photobio A:Chem,1993,71:75.

[18]　Liu G M,Li X Z,Zhao J C,et al.Modification to promote visible?light catalytic activity of TiO₂[J].J Mol Catal A,2000,153:221.

[19]　Turchi C S,Ollio D F.Photocatalytic degradation of organic water contaminants:Mechanisms involving hydroxyl radical attack[J].J Catal,1990,122:178.

[20]　Anderson M.Photodegradation of TCE in the gas phase using TiO₂ porous ceramic membrance[J].Photocatalytic Purification of Water and Air,1993,(1):405.

[21]　Mathens R W.Photocatalytic oxidation for total organic carbon analysis[J].Anal Chem Acta,1990,23:3171.

[22]　Tunesi S J.Influence of chemisorption on the photodecomposition of salycilic acid and related compounds using suspended TiO₂ ceramic membranes[J].Phys Chem,1991,95:3399.

[23]　Magrini.Improving catalyst performance for the solar?based photocataly oxidation of organics[J].Solar Engineering,1994,28:435.

[24]　廖文超,徐蘇,王蕾,等.微波輔助光催化降解阿特拉津的表觀動力學[J].環境工程學報,2014,8(7):2719.

[25]　范山湖,孫振范,鄔泉周,等.偶氮染料吸附和光催化氧化動力學[J].物理化學學報,2003,19(1):25.

[26]　Sobczynski A,Duczmal L,Zmudzinski W.Phenol destruction by photocatalysis on TiO₂:An attempt to solve the reaction mechanism[J].Journal of Molecular Catalysis A:Chemical,2004,213(2):225?230.

[27]　孟順龍,胡庚東,瞿建宏,等.阿特拉津在水環境中的殘留及其毒理效應研究進展[J].環境污染與防治,2009,3l(6):64?68.

[28]　Gomathi D L,Eraiah R K.A kinetic model based on non?linear regression analysis is proposed for the degradation of phenol under UV/solar light using nitrogen doped TiO₂[J].Journal of Molecular Catalysis A:Chemical,2011,334(1):65?76.

[29]　Gondal M A,Sayeed M N,Yamani Z H,et al.Efficient removal of phenol from water using Fe₂O₃semiconductor catalyst under UV laser irradiation[J].Journal of Environmental Science and Health,Part A,2009,44(5):515?521.

[30]　王怡中,符雁.甲基橙溶液多相光催化降解研究[J].環境科學,1998,19(1):1.

[31]　王阿楠,滕應,駱永明.二氧化鈦(P25)光催化降解二苯砷酸的研究 [J].環境科學,2014,35(10):3800?3806.

[32]　王曉星,顧彥,陳登霞,等.超氧化物歧化酶對 TiO₂光催化損傷 DNA 的影響[J].化學學報,2010,68(23):2463?2470.

[33]　張建斌,田海鋒,查飛,等.納米二氧化鈦光催化降解染料廢水動力學研究[J].應用化工,2014,43(8):1369?1372.

[34]　景曉輝,丁欣宇,喻紅梅,等.納米 TiO₂光催化氧化降解甲基橙動力學研究[J].印染助劑,2009,26(2):28?31.

[35]　尹曉紅,孫長江,辛峰,等.水溶液中 TiO₂對 4BS 染料的吸附及光催化降解動力學[J].化學工程與工藝,2008,24(4):375?379.

[36]　吳輝,黨煒,李成芳,等.TiO₂光催化氧化亞甲基藍的動力學研究[J].化學與生物工程,2009,26(6):36?39.

[37]　張晶晶,王立敏.PMo/TiO₂光催化降解甲基橙反應條件優化及動力學研究[J].精細石油化工進展,2009,10(1):23?26.

[38]　賈陳忠,王焰新,張彩香,等.UV?TiO₂光催化氧化降解雙酚 A 的動力學研究[J].環境污染與防治,2009,31(11):48?52.

[39]　于秀娟,王永強,孫德智,等.光催化氧化苯甲酸的動力學分析[J].哈爾濱工業大學學報,2008,40(6):861?864.

[40]　姜聚慧,呂華,席國喜,等.TiO₂光催化降解活性艷藍KN?R 的動力學研究[J].河南師范大學學報(自然科學版),2008,36(5):93?96.

[41]　崔玉民,范少華.污水處理中光催化技術的研究現狀及其發展趨勢[J].洛陽工學院學報,2002,23(2):85.

[42]　崔玉民,朱亦仁,王克中.用復相光催化劑WO₃/CdS/W深度處理印染廢水的研究[J].工業水處理,2001,21(2):9.

[43]　李旦振,鄭宜,付賢智.微波?光催化耦合效應及其機理研究[J].物理化學學報,2002,18(4):332.

[44]　科埃略.電介質物理學[M].呂景樓,李守義,譯.北京:科學出版社,1984:35.

[45]　Duan Ai?Hong.Biased number perception of schematic expressions in abstinent heroin abusers compared to normal controls[J].Journal of Yunnan Nomal Univ,1998,18(3):89.

[46]　李名復.半導體物理[M].北京:科學出版社,1991:1791.

[47]　李宗寶,王霞,周勛,等.(S,Co)雙摻雜TiO₂改性第一性原理[J].遼寧工程技術大學學報(自然科學版),2013,32(2):206.

[48]　占啟安.窄帶隙半導體光催化材料研究進展[J].中國陶瓷工業,2013,20(4):23.

[49]　沈艷玲.BiVO₄的制備及光催化性能研究[J].吉林大學學報,2000,62(2):206.

[50]　劉守新,劉鴻著.光催化及光電催化基礎與應用[M].(1版).北京:化學工業出版社,2007:60?69.

[51]　Hu C,Lan Y Q,Qu J H,et al.Ag/AgBr/TiO₂ visible light photocatalyst for destruction of azodyes and bacteria[J].Journal of Physical Chemistry B,2006,110(9):4066?4072.

[52]　Wang D S,Duan Y D,Luo Q Z,et al.Visible light photocatalytic activities of plasmonic Ag/AgBr particles synthesized by a double jet method[J].Desalination,2011,270:174?180.

[53]　Kuai L,Geng B Y,Chen X T,et al.Facile subsequently light?induced route to highly efficient and stable sunlight?driven Ag?AgBr plasmonic photocatalyst[J].Langmuir,2010,26(24):18723?18727.

[54]　Hu C,Peng T W,Hu X X,et al.Plasmon?induced photodegradation of toxic pollutants with Ag?AgI/Al₂O₃ under visible?light irradiation[J].Journal of the American Chemical Society,2010,132(2):857?862.

[55]　Pfanner K,Gfeller N,Calzaferri G.Photochemical oxidation of water with thin AgCl layers[J].Journal of Photochemistry and Photobiology A:Chemistry,1996,95(2):175?180.

[56]　Lanz M,Schürch D,Calzaferri G.Photocatalytic oxidation of water to O₂ on AgCl?coated electrodes[J].Journal of Photochemistry and Photobiology A:Chemistry,1999,120(2):105?117.

[57]　Wen Y Y,Ding H M.Preparation and photocatalytic activity of Ag@AgCl Modified anatase TiO₂ nanotubes[J].Chinese Journal of Catalysis,2011,32(1):36?45.

[58]　An C H,Peng S,Sun Y G.Facile synthesis of sunlight?driven AgCl:Ag plasmonic nanophotocatalyst[J].Advanced Materials,2010,22(23):2570?2574.

[59]　Linic S,Christopher P,Ingram D B.Plasmonic?metal nanostructures for efficient conversion of solar to chemical energy[J].Nature Materials,2011,10:911?921.

[60]　Wang P,Huang B B,Lou Z Z,et al.Synthesis of highly efficient Ag@AgCl plasmonic photocatalysts with various structures[J].Chemistry A:European Journal,2010,16(2):538?544.

[61]　Tang Y X,Subramaniam V P,Lau T H,et al.In situ formation of large?scale Ag/AgCl nanoparticles on layered titanate honeycomb by gas phase reaction for visible light degradation of phenol solution[J].Applied Catalysis B:Environmental,2011,106(3?4):577?585.

[62]　Soni S S,Henderson M J,Bardeau J F,et al.Visible?light photocatalysis in titania?based mesoporous thin films[J].Advanced Materials,2008,20(8):1493?1498.

[63]　Hoffillann M R,Martin S T,Choi W,et al.Environmental applications of semiconductor photocatalysis[J].Chemical Reviews,1995,95(1):69?96.

[64]　Yu J G,Dai G P,Huang B B,et al.Fabrication and characterization of visible?light?driven plasmonic photocatalyst Ag/AgCl/TiO₂ nanotube arrays[J].Journal of Physical Chemistry C,2009,113(37):16394?16401.

[65]　Li Y,Zhang H,Guo Z,et al.Highly efficient visible?light?induced photocatalytic activity of nanostructured AgI/TiO₂ photocatalyst[J].Langmuir,2008,24(15):8351?8357.

[66]　McMahon J J,Barry M,Breen K J,et al.Photocatalysis of the oxygen reduction reaction at adsorbate?covered silver[J].Journal of Physical Chemistry C,2008,112(4):1158?1166.

[67]　Sun S B,Chang X T,Dong L H,et al.W₁₈O₄₉ nanorods decorated with Ag/AgCl nanoparticles as highly?sensitive gas?sensing material and visible?light?driven photocatalyst[J].Journal of Solid State Chemistry,2011,184(8):2190?2195.

[68]　Zhou Z J,Long M C,Cai W M.Synthesis and photocatalytic performance of the efficient visible light photocatalyst Ag?AgCl/BiVO₄[J].Journal of Molecular Catalysis A:Chemical,2012,353?354:22?28.

[69]　Zhou J B,Cheng Y,Yu J G.Preparation and characterization of visible?light?driven plasmonic photocatalyst Ag/AgCl/TiO₂ nanocomposite thin films[J].Journal of Photochemistry and Photobiology A:Chemistry,2011,223(2?3):82?87.

[70]　Yang Y Q,Zhang G K,Xu W.Facile synthesis and photocatalytic properties of Ag?AgCl?TiO₂/rectorite composite[J].Journal of Colloid and Interface Science,2012,376:217?223.

[71]　Wang X F,Li S F,Ma Y Q,et al.H₂WO₄·H₂O/Ag/AgCl composite nanoplates:A plasmonic Z?scheme visible?light photocatalyst[J].Journal of Physical Chemistry C,2011,115(30):14648?14655.

[72]　Xu Y G,Xu H,Li H M,et al.Enhanced photocatalytic activity of new photocatalyst Ag/AgCl/ZnO[J].Journal of Alloys and Compounds,2011,509(7):3286?3292.

[73]　Zhang Y H,Tang Z R,Fu X Z,et al.Nanocomposite of Ag?AgBr?TiO₂ as a photoactive and durable catalyst for degradation of volatile organic compounds in the gas phase[J].Applied Catalysis B:Environmental,2011,106(3?4):445?452.

[74]　Asahi R,Morikawa T,Ohwaki T,et al.Visible?light photocatalysis in nitrogen?dopedtitanium oxides[J].Science,2001,293:5528.

[75]　Lindgren T,Mwabora J M,Avendano E,Jansson J,Hoel A,Granqvist C ?G,Lindquist S ?E,Photo electrochemical and optical properties of nitrogendoped titanium dioxide Elms prepared by reactive DC magnetron sputtering[J].J Phys Chem B,2003,107:5709?5710.

[76]　Sato S.Photocatalytic activity of NO_x doped TiO₂ in the visible light region[J].Chem Phys Lett,1986,123:126.

[77]　Nakamura R,Tanaka T,Nakato T,et al.Visible?light?induced nitrogen?doped TiO₂ powders.J.Phys.Mechanism for visible light responses in film electrodes[J].J Phys Chem B,2004,108:10617.

[78]　Fujitsuka M,Irie H,Hashimoto K.Degradation of ethylene glycol at N?doped TiO₂[J].Chem B,2006,110:13158.

[79]　Fu H,Zhang L,Zhang S,Zhu Y,Zhao J.Spin?trapping detection of radical intermediates photodegradation of 4?chlorophenol[J].J Phys Chem,Electron spin resonance in N?doped TiO₂?assisted B,2006,110:3061?3065.

[80]　Asahi R,Morikawa T,Ohwaki T,et al.Visible?light photocatalysis in nitrogen?doped titanium oxides [J].Science,2001,293:269?271.

[81]　Choi Y,Umebayashi T,Hashimoto K,Fabrication and characterization of C?doped TiO₂ photocatalysts[J].J Mater Sci,2004,39:1837?1839.

[82]　Irie H,Watanabe Y,Hashimoto K.Nitrogentration dependence on photocatalytic activity of TiO₂?xNx powders[J].J Phys Chem B,2003,107(23):5483?5486.

[83]　Ihara T,Miyoshi M,Iriyama Y,et al.Visible?light?active titanium oxide photocatalyst realized by an oxygen deficient structure and by nitrogen dop ing[J].App l Catal B,2003,42:403?409.

[84]　Asashi R,Morikawa T,Ohwakl T,et al.Visible?light photocatalysis in nitrogen?dopedtitanium oxides[J].Science,2001,293(5528):269.

[85]　Umebayashi T,Yamaki T,Itoh H,Asai K.Band gap narrowing of titanium dioxide by sulfur doping[J].Appl Phys Lett,2002,81:454?456.

[86]　Umebayashi T,Yamaki T,Tanaka S,Asai K,Visible light?induced degradation of methylene blue on S?doped TiO₂[J].Chem Lett,2003,32:330?331.

[87]　Ohno T,Mitsui T,Matsumura M.Photocatalytic activity of S?doped TiO₂ photocatalyst under visible light[J].Chem Lett,2003,32:364?365.

[88]　Ohno T M,Umebayashi T,Asai K,et al.Praparation of S?doped TiO₂ photocatalysts and their photocatalytic activities under visible light[J].Appl Catal A?Gen,2004,265:115.

[89]　Ohno T.Praparation of visible light active S?doped TiO₂ photocatalysts and their photocatalytic activities[J].Water Sci Technol,2004,49:159?163.

[90]　李青坤,王彪,王強,等.碳摻雜二氧化鈦光催化性能的第一性原理研究[J].黑龍江大學自然科學學報,2007,24(4):455.

[91]　Limpijumnong S,Zhang S B,We S H,et al.Dop ing by large?size?mismatched impurities:The microscop ic origin of arsenic?or antimony?doped p?type zinc oxide[J].Phys Rev Lett,2004,92(15):155504?155507.

[92]　Zhang S B,Northrup J E.Chemical potential dependence of defect formation energies in GaAs:App lication to Ga self?diffusion[J].Phys Rev Lett,1991,679(17):2339?2342.

[93]　Lin L,Lin W,ZhuY,et al.Photocatalyst active in visible light phosphor?doped titania?a novel[J].Chem Lett,2005,34:284.

[94]　Shi Q,Yang D,Jiang Z Y,Li J,Visible?light photocatalytic regeneration of NADH using P?doped TiO₂ nanoparticles[J].J Mol Catal B:Enzym,2006,43:44?48.

[95]　Yu J C,Zhang L Z,Zheng Z,Zhao J C,Synthesis and characterization of phosphated mesoporous titanium dioxide with high photocatalytic activity[J].Chem Mater,2003,15:2280?2286.　

[96]　Minero C,Mariella G,Maurino V,et al.Photocatalytic transformation of organic compounds in the presence of inorganic ions[J].Langmuir,2000,16:2632.

[97]　Yu J C,Yu J G,Ho W K,et al.F?doping on the photocatalytic activity and microstructures of nanocrystalline TiO₂ powders[J].Chem Mater,2002,14:3808.

[98]　張寧,許明霞,陳超,等.拉曼光譜對碘摻雜二氧化鈦的晶相與表面結構[J].南昌大學學報(理科版),2008,32(2):130?133.

[99]　鐘加輝,霍宇凝,李和興.p?n 型 Cu₂O?TiO₂復合可見光催化材料的研究進展[J].上海師范大學學報(自然科學版),2013,42(5):531.

[100]　邱明艷,張天永,李彬,等.異質結納米光催化材料研究進展[J].材料導報,2012,26(3):48.

[101]　顧祖毅,田立林,富力文.半導體物理學[M].4版.北京:電子工業出版社,1995:229.

[102]　崔玉民,張文保,苗慧,等.稀土修飾TiO₂光催化降解甲基橙反應機理[J].哈爾濱工業大學學報,2009,41(10):229?233.

[103]　Awazu K,Fujimki M,Rockstuhl C,et al.A plasmonic photoeatalyst consisting of silver nanoparticles embedded in titanium dioxide [J].J Am Chem Soc,2008,130:1676?1680.

[104]　Liu W X,Liu Z Y,Wang G N.Carbon coated Au/TiO₂ mesoporous microspheres:a novel selective photocatalyst[J].Sci China Mater,2017,5:438?448.

[105]　范濟民,朱力校,龔超,等.Ag@AgI復合N,F共摻雜TiO₂納米管的制備及其可見光催化性能[J].化工新型材料,2016,44(1):83?85.

[106]　高溢,劉佳雯,李中華.Au/TiO₂納米光催化劑的制備及光催化性能研究[J].化學工程師,2016,2:1?3.

[107]　Wang P,Wang J,Wang X F,et al.One?step synthesis of easy?recycling TiO₂?rGO nanocomposite photocatalysts with enhanced photocatalytic activity[J].Appl Catal B:Environ,2013,132?133:452?459.

[108]　Khalid N R,Ahmed E,Hong Z L,et al.Enhanced photocatalytic activity of grapheme?TiO₂ composite undervisible light irradiation[J].Curr Appl Phys,2013,13(4):659?663.

[109]　Huang M N,Yu J H,Hu Q,et al.Preparation and enhanced photocatalytic activity of carbon nitride/titania(001 vs 101 facets)/reduced graphene oxide(g?C₃N₄/TiO₂/rGO)hybrids under visible light[J].Applied Surface Science,2016,389:1084?1093.

[110]　Zhang J J,Liu X,Ye T,et al.Novel assembly of homogeneous reduced graphene oxide?doped mesoporous TiO₂ hybrids for elimination of rhodamine?B dye under visible light irradiation[J].Journal of Alloys and Compounds,2017,698:819?827.

[111]　Zhang Y P,Pan C X.TiO₂/graphene composite from thermal reaction of graphene oxide and its photocatalytic activity in visible light[J].Journal of Materials Science,2011,46:2622?2626.

[112]　Vasilaki E,Georgaki I,Vernardou D,et al.Ag?loaded TiO₂/reduced graphene oxide nanocomposites for enhanced visible?light photocatalytic activity[J].Applied Surface Science,2015,353:865?872.

[113]　Mohsin Nawaz,Waheed Miran,Jiseon Jang,et al.One?step hydrothermal synthesis of porous 3d reduced graphene oxide/TiO₂ aerogel for carbamazepine photodegradation in aqueous solution[J].Applied Catalysis B:Environmental,2017,203:85?95.

[114]　Minella M,Sordello F,Minero C.Photocatalytic process in TiO₂/graphene hybrid materials:Evidence of chargeseparation by electron transfer from reduced graphene oxide to TiO₂[J].Catalysis Today,2017,281:29?37.

[115]　陳順生,曹鑫,陳春卉,等.TiO₂基復合光催化劑研究進展[J].功能材料,2018,49(7):07039?07051.

[116]　周冬妹.P?N型Cu₂O/TiO₂異質結納米材料的結構及其光催化性能研究[D].杭州:浙江理工大學,2015.

[117]　Li J,Liu L,Yu Y,et al.Preparation of highly photocatalytic active nanosize TiO₂?Cu₂O particle composites with a novel electrochemical method [J].Electrochem Commun,2004,6(9):940?943.

[118]　Wan Y L,Han M M,Yu L M,et al.3D Bi₂S₃salixleaf?like nanosheet/TiO₂nanorod branched heterostructure arrays for improving photoelectrochemical properties[J].Cryst Eng Comm,2016,18:1577?1584.

[119]　Devi L G,Raju K S A,Rajashekhar K E,et al.Degradation mechanism of diazo dyes by photo Fenton like process:Influence of various reaction parameters on the degradation kinetics[J].Bulgarian Chemical Communications,2009,41(4):385?390.

[120]　Chen C Y.Photocatalytic degradation of azo dye reactive orange 16 by TiO₂[J].Water Air & Soil Pollution,2009,202(1?4):335?342.

[121]　Zhao H Z,Sun Y,Xu L N,et al.Removal of acid orange 7 in simulated wastewater using a three?dimensional electrode reactor:Removal mechanisms and dye degradation pathway[J].Chemosphere,2009,78(1):46?51.

[122]　Ma J J,Zhou L C,Dan W F,et al.Novel magnetic porous carbon spheres derived from chelating resin as a heterogeneous Fenton catalyst for the removal of methylene blue from aqueous solution[J].Journal of Colloid and Interface Science,2015,446:298?306.

[122]　Houas A,Lachheb H,Ksibi M,et al.Photocatalytic degradation pathway of methylene blue in water[J].Applied Catalysis B Environmental,2001,31(2):145?157.

[124]　馬文姣,戴啟洲,王家德,等.聲電氧化處理亞甲基藍廢水的研究[J].中國環境科學,2012,32(5):855?862.

[125]　樊迪.甲基橙染料經臭氧處理的降解及其中間產物[J].污染防治技術,2015,28(3):29?33.

[126]　賀玲,劉紅玉,楊春平,等.濕式過氧化氫氧化活性艷藍 KN?R[J].環境工程學報,2015,9(9):4131?4137.

[127]　Zhang W,Xiao X,An T,et al.Kinetics,degradation pathway and reaction mechanism of advanced oxidation of 4?nitrophenol in water by a UV/H₂O₂,process[J].Journal of Chemical Technology & Biotechnology,2003,78(7):788?794.

[128]　Zhu N,Lin G,Yuan H,et al.Degradation pathway of the naphthalene azo dye intermediate 1?diazo?2?naphthol?4?sulfonic acid using Fenton’s reagent[J].Water Research,2012,46(12):3859?3867.

[129]　張興英,楊紹貴.異相可見光 Fenton催化降解羅丹明 B 的研究[J].環境污染與防治,2013,35(3):79?84.

[130]　Da Silva Leite L,de Souza Maselli B,de Arag Oumbuzeiro G,et al.Monitoring ecotoxicity of disperse red 1 dye during photo?Fenton degradation[J].Chemosphere,2016,148:511?517.

[131]　馬奇.高等有機化學[M].北京:人民教育出版社,1981.

[132]　Zen A S,Aviyente V,Proft F D,et al.Modeling the substituent effect on the oxidative degradation of azo dyes[J].J Phys Chem A,2004,108(28):5990?6000.

[133]　Xu J L,Xu L J.Advanced oxidation processes for wastewater treatment:Formation of hydroxyl radical and application[J].Critical Reviews in Environmental Science & Technology,2012,42(3):251?325.

[134]　Boon R,Attanakij N,Lu M C,Anotai J.Kinetics and mechanism of 2,6?dimethyl?aniline degradation by hydroxyl radicals[J].J Hazard Mater,2009,172:952?957.

[135]　Evimli M F,Sarikaya H Z.Ozone treatment of textile effluents and dyes:Effect of applied ozone dose,pH and dye concentration[J].Journal of Chemical Technology & Biotechnology,2002,77(7):842?850.

[136]　Meetani M A,Hisaindee S M,Abdullah F,et al.Liquid chromatography tandem mass spectrometry analysis of photodegradation of a diazo compound:A mechanistic study[J].Chemosphere,2010,80(4):422?427.

[137]　Shuang S,He Z,Qiu J,et al.Ozone assisted electrocoagulation for decolorization of C.I.Reactive Black 5 in aqueous solution:An investigation of the effect of operational parameters[J].Separation & Purification Technology,2007,55(2):238?245.