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模拟太阳光下锐钛矿TiO2对化学毒剂的降解性能 被引量:3

Degradation of Chemical Warfare Agent by Anatase Titanium Dioxide under the Simulated Sunlight
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摘要 采用尿素热分解均匀沉淀法制备了锐钛矿型纳米二氧化钛光催化剂,通过XRD、BET、BJH、TEM、SEM等技术对样品进行了表征。在模拟太阳光下用化学毒剂模拟剂2-CEES和DMMP开展了光催化消毒实验,并对实验数据进行了动力学方程拟合,与市售的2种TiO2进行了对比。最后测试了所制TiO2对HD、GD和VX 3种毒剂的醇酸漆试片表面移除率及24 h光催化降解率。结果表明:制备出的TiO2为介孔结构,比表面积为336.8 m^2/g,孔径分布主要在2-5 nm之间;模拟太阳光下对2-CEES和DMMP的降解性能均优于另外2种TiO2,动力学方程理论值与实验值的拟合方差R^2≥0.987 9;吸附90 s后,对醇酸漆试片表面HD、GD和VX的移除率均大于99.99%;反应24 h后,对HD、GD和VX的降解率分别为92.42%、99.99%和99.59%。 Urea thermal decomposition and homogeneous precipitation method were used to prepare anatase titanium dioxide nanoparticles. The synthesized sample was characterized by XRD, BET, BJH, SEM and TEM. The photocatalytic decontamination of 2-CEES and DMMP on the sample was examined and compared with other two commercial TiO2 under the simulated sunlight,the data were fitted by kinetic equation. Finally,study of HD,GD,VX on the prepared TiO2 were carried out to test the alkyd paint specimen surface removal rates and 24 h photocatalytic degradation rates. Results revealed that catalytic activity of prepared TiO2 to 2-CEES and DMMP were better than the other two TiO2. The sample had mesoporous structure,whose pore width was mainly between 2 -5 nm and specific surface area was 336.8 m^2/g. The experimental values fitted well with the theoretical values of kinetic equation(R^2≥0.987 9). After adsorbing for 90 s,the surface removal rates of HD,GD,VX were all greater than 99.99%,and after reacting for 24 h,the degradation rates of HD,GD and VX were 92.42%,99.99% and 99.59% respectively.
作者 沈忠 钟近艺 张哲 雷美玲 郑禾 辛毅
机构地区 防化研究院 西北核技术研究所
出处 《环境科学与技术》 CAS CSCD 北大核心 2016年第3期68-73,共6页 Environmental Science & Technology
基金 国家自然科学基金资助项目(21207160)
关键词 化学毒剂 二氧化钛 均匀沉淀法 模拟太阳光 降解率 表面移除率 chemical warfare agents titanium dioxide homogeneous precipitation method simulated sunlight degradation rate surface removal rate
分类号 X592 [环境科学与工程—环境工程] O614.4 [理学—无机化学]
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参考文献23

  • 1Bizzigotti G O, Rhoads R P, Lee S J, et al. Handbook of Chemical and Biological Warfare Agent Decontamination [M]. ILM, 2012.
  • 2Fox M A, Kim Y S, Abdel-Wahab A A, et al. Photocatalytic decontamination of sulfidecontainingalkyl halides on irradiat- ed semiconductor suspensions [J]. Catal Lett, 1990,5: 369- 376.
  • 3Stengl V, Marikova M, Bakardjieva S, et al. Reaction of sulfur mustard gas, soman and agent VX with nanosized anatase TiO2 and ferrihydrite[J]. J Chem Tech Biotech, 2005,80: 754-758.
  • 4习海玲 张建宏 孙春翌 等.芥子气在锐钛型TiO2悬浮液中的光催化降解.防化学报,1998,(2):1-1.
  • 5习海玲,左言军,等.纳米二氧化钛粉末光催化降解HD和VX的研究[J].防化研究,2001(2):14-16. 被引量:2
  • 6习海玲,左言军,等.光催化氧化法消除水中化学毒剂[J].防化研究,2001(4):32-35. 被引量:3
  • 7Sato K, Hirakawa T, Komano A, et al. Titanium dioxide photocatalysis to decompose isopropylmethyl phosphonoflu- oridate (GB) in gas phase [J]. Applied Catalysis B :Environ- mental, 2011,106(3/4) :316-322.
  • 8Komano A, Hirakawa T, Sato K,et al. Titanium dioxide photocatalytic decomposition of ethyl-S-dimet hy- laminoethyl methylphosphonothiolate(VX) in aqueous phase [J]. Applied Catalysis B :Environmental, 2013,134/135:19--25.
  • 9Vorontsov A V, Savinov E N, Davydov L, et al. Photo- catalytic degradation of 2-phenethyl-2-chlorehyl sulfide in liquid and gas phases [J]. J Environ Sci Technol, 2002,36: 261-269.
  • 10Vorontsov A V, Lion C, Savinov E N, et al. Pathways of photocatalytic gas phase destruction of HD stimulant 2- chloroethyl ethyl sulfide[J]. Journal of Catalysis, 2003, 220 (2):414-423.

二级参考文献29

  • 1[2]Yang,Y.C.;Baker,J.A.;Ward,J.R.Chem.Rev.,1992,92: 1729
  • 2[3]Fox,M.A.;Kim,Y.S.;Abdel-Wahab,A.A.;Dulay,M.C. Catal.Lett.,1990,5:369
  • 3[4]Vorontsov,A.V.;Savinov,E.V.;Davydov,L.Appl.Catal.B: Environmental,2001,32:11
  • 4[5]Kozlov,D.V.;Paukshitis,E.A.;Savinov,E.N.Appl.Catal.B: Environmental,2000,24:L7
  • 5[6]Dombi,A.;Fekete,Z.A.;Kiricsi,I.Appl.Catal.A:General,2002,193:L5
  • 6[7]Zhao,J.;Yang,X.D.Building and Environment,2003,38:645
  • 7[10]Mawhinney,D.B.;Rossin,J.A.;Gerhart,K.;Yates,J.J.T. Langmuir,2000,16:2237
  • 8[11]Saur,O.;Benstitel,M.;Saad,A.B.M.;Lavalley,J.C.;Tripp,C.P.;Monow,B.A.J.Catal.,1986,99:104
  • 9[12]Somasundaram,N.;Srinivasan,S.J.Photochem.Photobiol.A: Chem.,1998,115:169
  • 10[13]Sauer,M.L.;Oills,D.F.J .Catal.,1996,163:215

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环境科学与技术
2016年 第3期

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