通过溶胶凝胶法制备载钛活性炭纤维( TiO2?ACF)复合材料,采用X射线衍射仪( XRD)、扫描电子显微镜( SEM)、紫外?可见吸收( UV?Vis)、傅里叶红外分光光度计( FT?IR)、X射线光电子能谱( XPS)对TiO2?ACF进行了表征,并研究了TiO2?ACF对水中罗丹明B 的光催化性能.结果表明,煅烧温度为400—600℃时,负载在ACF上的TiO2为锐钛矿型,当煅烧温度上升到700℃时,TiO2开始出现金红石型,600℃时煅烧制备的TiO2?ACF对水中罗丹明B的降解效果最佳;TiO2?ACF对罗丹明B的吸附能力比ACF低;但是在紫外光条件下,60 min后TiO2?ACF 对罗丹明 B 的降解率比 ACF、TiO2对罗丹明 B 的降解率分别高8.6%和16.2%, TiO2?ACF表现出较高的光催化活性.
Titanium loaded activated carbon fiber ( TiO2?ACF) composite materials were prepared by the sol?gel method. The structural features of the TiO2?ACF were investigated by XRD, SEM, UV?Vis, FT?IR and XPS. And the photocatalytic performance of the TiO2?ACF was tested by photocatalytic degradation of aqueous Rhodamine B ( RhB) . The results showed that the TiO2 loaded on the activated carbon fiber was anatase, when the calcination temperatures were 400—600 ℃, and the phase transformation from anatase to rutile began at 700 ℃, TiO2?ACF calcined at 600 ℃exhibited the best degradation effect for Rhodamine B. The adsorption ability of RhB onto TiO2?ACF was lower than that of ACF, but under the condition of UV irradiation, TiO2?ACF showed higher photocatalytic activity, the degradation rates of RhB were higher than those of ACF and TiO2 by 8?6% and 16.2%, respectively.
参考文献
| [1] | Li Y J,Zhou X M,Chen W,et al .Photodecolorization of Rhodamine B on tungsten-doped TiO2/activated carbon under visible-light irradiation[J].Journal of Hazardous Materials,2012,227 |
| [2] | Loryuenyong V,Buasri A,Srilachai C,et al .The synthesis of microporous and mesoporous titania with high specificsurface area using sol-gel method and activated carbon templates[J].Materials Letters,2012,87 |
| [3] | Lin X,Rong F,Ji X,et al .Carbon-doped mesoporous TiO2 film and itsphotocatalytic activity[J].Microporous Mesoporous Mater,2011,142 |
| [4] | Perego C,Revel R,Durupthy O.et al .Thermal stability on TiO2-anatase:Impact of nanoparticles morphology on kinetic phase trans-formation[J].Solid State Sci,2010,12 |
| [5] | 施超,冯景伟,彭书传,胡真虎.活性炭纤维对水中罗丹明B的吸附性能[J].环境化学,2013(03):394-401. |
| [6] | 李发堂,赵地顺.溶胶-凝胶法合成纳米TiO2粉体的研究进展[J].材料导报,2006(z2):64-67. |
| [7] | Waldner G,Pourmodjib M,Bauer R,et al .Photoelectrocatalytic degradtion of 4-chlorophenol and oxalicacid on titanium dioxide electrodes[J].Chemosphere,2003,50 |
| [8] | Hou Y N,Qu J H,Zhao X,et al .Electro-photocatalytic degradation of acid orangeⅡusing a novel TiO2/ACF photoanode[J].Science of the Total Environment,2009,407 |
| [9] | Meng H,Hou W,Xu X X,et al .TiO2-loaded activated carbon fiber:Hydrothermal synthesis,adsorption properties and photo catalytic activity under visible lightirradiation[J].Particuology,2014,14 |
| [10] | Litter M L .Heterogeneous photocatalysis:Transition metal ions in photocatalytic systems[J].Applied Catalysis B,1999,23 |
| [11] | Minero C,Pelizzetri E,Malato S,et al .Large solar plant photocatalytic water decontamination:Effect of operational parameters[J].Solar Energy,1996,56(5):421-428. |
| [12] | Brasquet C,Rousseau B,Estrade-Szwarckopf H,et al .Observation of activated carbon fibres with SEM and AFM correlation with adsorption data in aqueous solution[J].Carbon,2000,38(3):407-422. |
| [13] | Shi J W,Cui H J,Chen J W,et al .TiO2/activated carbon fibers photocatalyst:Effects of coating procedureson the microstructure,adhesion property,and photocatalytic ability[J].Journal of Colloid and Interface Science,2012,388 |
| [14] | Fu P F,Luan Y,Dai X G .Preparation of activated carbon fibers supported TiO2 photocatalyst and evaluation of its photocatalytic reactivity[J].Journal of Molecular Catalysis A:Chemical,2004,221 |
| [15] | López T,Moreno J A,Gómez R,et al .Characterization of iron-doped titania sol-gel materials[J].Mater Chem,2002,12 |
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