将层状HTiNbO5剥层絮凝成HTiNbO5纳米片,然后与硫脲焙烧,制得了S掺杂的HTiNbO5纳米片.与原始HTiNbO5和HTiNbO5纳米片相比,该样品具有较大的比表面积和明显的可见光吸收.以罗丹明B为降解物,评价了该催化剂的吸附性能和可见光催化性能.结果表明,HTiNbO5纳米片和S掺杂的HTiNbO5纳米片都具有很好的吸附能力和很高的可见光降解速率.然而,对于罗丹明B的矿化,S掺杂的HTiNbO5纳米片可以达到41%矿化率,而HTiNbO5纳米片上矿化单几乎为零.这说明S掺杂能有效改善纳米片的光催化效果.最后,对可能的光催化机理进行了探讨.
参考文献
| [1] | Hoffmann M R;Martin S T;Choi W;Bahnemann D W .[J].Chemical Reviews,1995,95:69. |
| [2] | Chen X B;Shen S H;Guo L J;Mao S S .[J].Chemical Reviews,2010,110:6503. |
| [3] | Fujishima A;Rao T N;Tryk D A .[J].Journal of Photochemistry & Photobiology C:Photochemistry Reviews,2000,1:1. |
| [4] | Li, Q.;Guo, B.;Yu, J.;Ran, J.;Zhang, B.;Yan, H.;Gong, J.R. .Highly efficient visible-light-driven photocatalytic hydrogen production of CdS-cluster-decorated graphene nanosheets[J].Journal of the American Chemical Society,2011(28):10878-10884. |
| [5] | Zhang, J.;Yu, J.;Zhang, Y.;Li, Q.;Gong, J.R. .Visible light photocatalytic H_2-production activity of CuS/ZnS porous nanosheets based on photoinduced interfacial charge transfer[J].Nano letters,2011(11):4774-4779. |
| [6] | Takata T;Tanaka A;Hara M;Kondo J N Domen K .[J].Catalysis Today,1998,44:17. |
| [7] | Yang G;Hou WH;Feng XM;Jiang XF;Guo J .Density functional theoretical studies on polyaniline/HNb3O8 layered nanocomposites[J].Advanced functional materials,2007(17):3521-3529. |
| [8] | Allen M R;Thibert A;Sabio E M;Browning N D Larsen D S Osterloh F E .[J].Chemistry of Materials,2010,22:1220. |
| [9] | Yang G;Hou WH;Feng XM;Xu L;Liu YG;Wang G;Ding WP .Nanocomposites of polyaniline and a layered inorganic acid host: Polymerization of aniline in the layers, conformation, and electrochemical studies[J].Advanced functional materials,2007(3):401-412. |
| [10] | He J;Li Q J;Tang Y;Yang P Li A Li R Li H Z .[J].Applied Catalysis A:General,2012,443-444:145. |
| [11] | Kim T W;Ha H W;Paek M J;Hyun S H Baek I H Choy J H Hwang S J .[J].The Journal of Physical Chemistry C,2008,112:14853. |
| [12] | Kim TW;Hur SG;Hwang SJ;Park H;Choi W;Choy JH .Heterostructured visible-light-active photocatalyst of chromia-nanoparticle-layered titanate[J].Advanced functional materials,2007(2):307-314. |
| [13] | Kim TW;Hwang SJ;Jhung SH;Chang JS;Park H;Choi W;Choy JH .Bifunctional heterogeneous catalysts for selective epoxidation and visible light driven photolysis: Nickel oxide-containing porous nanocomposite[J].Advanced Materials,2008(3):539-542. |
| [14] | Leary R;Westwood A .[J].Carbon,2011,49:741. |
| [15] | Asahi R;Morikawa T;Ohwaki T;Aoki K Taga Y .[J].Science,2001,293:269. |
| [16] | Li X K;Kikugawa N;Ye J H .[J].Advanced Materials,2008,20:3816. |
| [17] | Zheng Z;Huang Y C;Xu L;Yang X Y Hu C H Zhang L H Fan Y N Hou W H .[J].Nano Research,2011,4:635. |
| [18] | Zhai Z;Yang X Y;Xu L;Hu C H Zhang L H Hou W H Fan Y N .[J].Nanoscale,2012,4:547. |
| [19] | Zhai Z;Hu C H;Yang X Y;Zhang L H Liu C Fan Y N Hou W H .[J].Journal of Materials Chemistry,2012,22:19122. |
| [20] | Liu, G;Yang, HG;Wang, XW;Cheng, LN;Pan, J;Lu, GQ;Cheng, HM .Visible Light Responsive Nitrogen Doped Anatase TiO2 Sheets with Dominant {001} Facets Derived from TiN[J].Journal of the American Chemical Society,2009(36):12868-12869. |
| [21] | Zheng R Y;Lin L;Xie J L;Zhu Y X Xie Y C .[J].The Journal of Physical Chemistry C,2008,112:15502. |
| [22] | Li HX;Zhang XY;Huo YN;Zhu J .Supercritical preparation of a highly active S-doped TiO2 photocatalyst for methylene blue mineralization[J].Environmental Science & Technology: ES&T,2007(12):4410-4414. |
| [23] | Liu S X;Chen X Y .[J].Journal of Hazardous Materials,2008,152:48. |
| [24] | Tian H;Ma J F;Li K;Li J J .[J].Ceramics International,2009,35:1289. |
| [25] | Liu, JW;Wang, L;Liu, JH;Wang, TC;Qu, WL;Li, ZH .DFT study on electronic structures and optical absorption properties of C, S cation- doped SrTiO3[J].Central European Journal of Physics,2009(4):762-767. |
| [26] | Huo G Y;Ren X;Qian L L;Zhang N Liu S Yan X .[J].Journal of Magnetism and Magnetic Materials,2013,343:119. |
| [27] | Dhanasekaran P;Gupta N M .[J].International Journal of Hydrogen Energy,2012,37:4897. |
| [28] | Liu P;Nisar J;Pathak B;Ahuja R .[J].International Journal of Hydrogen Energy,2012,37:11611. |
| [29] | Marschall R;Mukherji A;Tanksale A;Sun C H Smith S C Wang L Z Lu G Q .[J].Journal of Materials Chemistry,2011,21:8871. |
| [30] | Nisar J;Pathak B;Wang B C;Kang T W Ahuja R .[J].Physical Chemistry Chemical Physics,2012,14:4891. |
| [31] | Zhang C;Jia Y Z;Jing Y;Yao Y Ma J Sun J H .[J].Physical Review B:Condensed Matter,2012,407:4649. |
| [32] | Hou W H;Ma J;Yan Q J;Fu X C.[J].Journal of the Chemical Society,Chemical Communications,1993:1144. |
| [33] | Takagaki A.;Sugisawa M.;Lu DL.;Kondo JN.;Hara M.;Domen K.;Hayashi S. .Exfoliated nanosheets as a new strong solid acid catalyst[J].Journal of the American Chemical Society,2003(18):5479-5485. |
| [34] | Yu JG;Guo HT;Davis SA;Mann S .Fabrication of hollow inorganic microspheres by chemically induced self-transformation[J].Advanced functional materials,2006(15):2035-2041. |
| [35] | Bavykin DV;Parmon VN;Lapkin AA;Walsh FC .The effect of hydrothermal conditions on the mesoporous structure of TiO2 nanotubes[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2004(22):3370-3377. |
| [36] | Yu J;Yu H;Cheng B;Traplis C .[J].Journal of Molecular Catalysis A:Chemical,2006,249:135. |
| [37] | Niu Y X;Xing M Y;Tian B Z;Zhang J L .[J].Applied Catalysis B:Environmental,2012,115-116:253. |
| [38] | Colón G;Hidalgo M C;Munuera G;Ferino I Cutrufello M G Navío J A .[J].Applied Catalysis B:Environmental,2006,63:45. |
| [39] | Boudali LK;Ghorbel A;Grange P;Figueras F .Selective catalytic reduction of NO with ammonia over V2O5 supported sulfated titanium-pillared clay catalysts: influence of V2O5 content[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2005(1/2):105-111. |
| [40] | Ohno T;Akiyoshi M;Umebayashi T;Asai K Mitsui T Matsumura M .[J].Applied Catalysis A:General,2004,265:115. |
| [41] | Rengifo-Herrera J A;Mielczarski E;Mielczarski J;Castillo N C Kiwi J pulgarin C .[J].Applied Catalysis B:Environmental,2008,84:448. |
| [42] | Fang J;Shi F C;Bu Jing;Ding J J Xu S T Bao J Ma Y S Jiang Z Q Zhang W P Gao C Huang W X .[J].The Journal of Physical Chemistry C,2010,114:7940. |
| [43] | Znad H;KawaseY .[J].Journal of Molecular Catalysis A:Chemical,2009,314:55. |
| [44] | Bidaye P P;Khushalani D;Fernandes J B .[J].Catalysis Letters,2010,134:169. |
| [45] | Lv Y H;Pan C S;Ma X G;Zong R L Bai X J Zhu Y F .[J].Applied Catalysis B:Environmental,2013,138-139:26. |
| [46] | Liu G;Wang L Z;Yang H G;Cheng H M Lu G Q .[J].Journal of Materials Chemistry,2010,20:831. |
| [47] | Chen C C;Ma W H;Zhao J C .[J].Chemical Society Reviews,2010,39:4206. |
| [48] | Chen XB;Burda C .The electronic origin of the visible-light absorption properties of C-, N- and S-doped TiO2 nanomaterials[J].Journal of the American Chemical Society,2008(15):5018-5019. |
| [49] | Li HX;Li GS;Zhu J;Wan Y .Preparation of an active SO42-/TiO2 photocatalyst for phenol degradation under supercritical conditions[J].Journal of molecular catalysis, A. Chemical,2005(1):93-100. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%