具有丰富(001)面的锐钛矿TiO<sub>2</sub>晶体的无氟合成

引用本文: 常伟伟, 刘艳, 孙琦, 孟祥举, 肖丰收. 具有丰富(001)面的锐钛矿TiO₂晶体的无氟合成[J]. 催化学报, 2013, 34(11): 2004-2008. doi: 10.1016/S1872-2067(12)60679-2 shu

Citation: Weiwei Chang, Yan Liu, Qi Sun, Xiangju Meng, Feng-Shou Xiao. Fluoride-free synthesis of anatase TiO₂ crystals rich in (001) facets in the presence of cationic polymer[J]. Chinese Journal of Catalysis, 2013, 34(11): 2004-2008. doi: 10.1016/S1872-2067(12)60679-2 shu

具有丰富(001)面的锐钛矿TiO₂晶体的无氟合成

通讯作者: Xiangju Meng

基金项目:
国家自然科学基金(U1162201和21003107) (U1162201和21003107)

国家高技术研究发展计划(2013AA065301) (2013AA065301)

浙江省创新团队项目(2012R10014-01) (2012R10014-01)

中央高校基本科研业务费专项资金(2013XZZX001). (2013XZZX001)

摘要: 采用一种全新的方法实现了无氟、在阳离子聚合物参与下合成具有丰富(001)面的锐钛矿TiO₂晶体(TiO₂-P), 并通过X射线衍射、扫描电镜、透射电镜、紫外-可见光谱等手段对样品进行了表征. 光催化测试显示, 该样品对甲基橙的降解具有比常规锐钛矿TiO₂和商业P25更好的活性, 这可归因于TiO₂-P具有大量的暴露(001)晶面.

关键词:

English

Fluoride-free synthesis of anatase TiO₂ crystals rich in (001) facets in the presence of cationic polymer

1.
Department of Chemistry, Zhejiang University, Hangzhou 310028, Zhejiang, China

Corresponding author: Xiangju Meng

Received Date: 14 June 2013
Available Online: 20 November 2013
Fund Project:
国家自然科学基金(U1162201和21003107)

国家高技术研究发展计划(2013AA065301)

浙江省创新团队项目(2012R10014-01)

中央高校基本科研业务费专项资金(2013XZZX001).

Abstract: Controllable syntheses of anatase TiO₂ rich in (001) facets have attracted much attention because of the excellent photocatalytic activity of this material in dye degradation. These syntheses are normally performed in the presence of fluoride, which is environmentally unfriendly. In this study, anatase TiO₂ crystals rich in (001) facets were successfully synthesized in the presence of a cationic polymer and characterized using X-ray diffraction, scanning electron and transmission electron microscopies, and ultraviolet-visible spectroscopy. Photocatalytic tests showed that this material is very active in the degradation of methyl orange compared with conventional anatase TiO₂ crystals and a commercial P25 photocatalyst. The high activity is attributed to the rich (001) facets translation.

Key words:

1. [1] Asahi R, Morikawa T, Ohwaki T, Aoki K, Taga Y. Science, 2001, 293: 269[1] Asahi R, Morikawa T, Ohwaki T, Aoki K, Taga Y. Science, 2001, 293: 269
2. [2] Chen D H, Huang F Z, Cheng Y B, Caruso R A. Adv Mater, 2009, 21: 2206[2] Chen D H, Huang F Z, Cheng Y B, Caruso R A. Adv Mater, 2009, 21: 2206
3. [3] Chen J I L, Von Freymann G, Choi S Y, Kitaev V, Ozin G A. Adv Mater, 2006, 18: 1915[3] Chen J I L, Von Freymann G, Choi S Y, Kitaev V, Ozin G A. Adv Mater, 2006, 18: 1915
4. [4] Tang H, Prasad K, Sanjinés R, Lévy F. Sensors Actuators B, 1995, 26: 71[4] Tang H, Prasad K, Sanjinés R, Lévy F. Sensors Actuators B, 1995, 26: 71
5. [5] Liu M, Piao L Y, Zhao L, Ju S T, Yan Z J, He T, Zhou C L, Wang W J. Chem Commun, 2010, 46: 1664[5] Liu M, Piao L Y, Zhao L, Ju S T, Yan Z J, He T, Zhou C L, Wang W J. Chem Commun, 2010, 46: 1664
6. [6] Diebold U. Surf Sci Rep, 2003, 48: 53[6] Diebold U. Surf Sci Rep, 2003, 48: 53
7. [7] Yang H G, Sun C H, Qiao S Z, Zou J, Liu G, Smith S C, Cheng H M, Lu G Q. Nature, 2008, 453: 638[7] Yang H G, Sun C H, Qiao S Z, Zou J, Liu G, Smith S C, Cheng H M, Lu G Q. Nature, 2008, 453: 638
8. [8] Alivov Y, Fan Z Y. J Phys Chem C, 2009, 113: 12954[8] Alivov Y, Fan Z Y. J Phys Chem C, 2009, 113: 12954
9. [9] Liu S W, Yu J G, Jaroniec M. J Am Chem Soc, 2010, 132: 11914[9] Liu S W, Yu J G, Jaroniec M. J Am Chem Soc, 2010, 132: 11914
10. [10] Xiang Q J, Yu J G. Chin J Catal (向全军, 余家国. 催化学报), 2011, 32: 525[10] Xiang Q J, Yu J G. Chin J Catal (向全军, 余家国. 催化学报), 2011, 32: 525
11. [11] Lü K L, Cheng B, Yu J G, Liu G. Phys Chem Chem Phys, 2012, 14: 5349[11] Lü K L, Cheng B, Yu J G, Liu G. Phys Chem Chem Phys, 2012, 14: 5349
12. [12] Yang H G, Liu G, Qiao S Z, Sun C H, Jin Y G, Smith S C, Zou J, Cheng H M, Lu G Q. J Am Chem Soc, 2009, 131: 4078[12] Yang H G, Liu G, Qiao S Z, Sun C H, Jin Y G, Smith S C, Zou J, Cheng H M, Lu G Q. J Am Chem Soc, 2009, 131: 4078
13. [13] Han X G, Kuang Q, Jin M S, Xie Z X, Zheng L S. J Am Chem Soc, 2009, 131: 3152[13] Han X G, Kuang Q, Jin M S, Xie Z X, Zheng L S. J Am Chem Soc, 2009, 131: 3152
14. [14] Wang C, Deng Z X, Zhang G H, Fan S S, Li Y D. Powder Technol, 2002, 125: 39[14] Wang C, Deng Z X, Zhang G H, Fan S S, Li Y D. Powder Technol, 2002, 125: 39
15. [15] Guo Y G, Hu J S, Liang H P, Wan L J, Bai C L. Adv Funct Mater, 2005, 15: 196[15] Guo Y G, Hu J S, Liang H P, Wan L J, Bai C L. Adv Funct Mater, 2005, 15: 196
16. [16] Wang Y W, Zhang L Z, Deng K J, Chen X Y, Zou Z J. J Phys Chem C, 2007, 111: 2709[16] Wang Y W, Zhang L Z, Deng K J, Chen X Y, Zou Z J. J Phys Chem C, 2007, 111: 2709
17. [17] Jung M H, Chu M J, Kang M G. Chem Commun, 2012, 48: 5016[17] Jung M H, Chu M J, Kang M G. Chem Commun, 2012, 48: 5016
18. [18] Fang W Q, Yang X H, Zhu H J, Li Z, Zhao H J, Yao X D, Yang H G. J Mater Chem, 2012, 22: 22082[18] Fang W Q, Yang X H, Zhu H J, Li Z, Zhao H J, Yao X D, Yang H G. J Mater Chem, 2012, 22: 22082
19. [19] Huo Q S, Margolese D I, Clesla U, Feng P Y, Gler T E, Sieger P, Leon R, Petroff P M, Schüth F, Stucky G D. Nature, 1994, 368: 317[19] Huo Q S, Margolese D I, Clesla U, Feng P Y, Gler T E, Sieger P, Leon R, Petroff P M, Schüth F, Stucky G D. Nature, 1994, 368: 317
20. [20] Huo Q S, Margolese D I, Ciesla U, Demuth D G, Feng P Y, Gier T E, Sieger P, Firouzi A, Chmelka B F, Schüth F, Stucky G D. Chem Mater, 1994, 6: 1176[20] Huo Q S, Margolese D I, Ciesla U, Demuth D G, Feng P Y, Gier T E, Sieger P, Firouzi A, Chmelka B F, Schüth F, Stucky G D. Chem Mater, 1994, 6: 1176
21. [21] Xiao F S, Wang L F, Yin C Y, Lin K F, Di Y, Li J X, Xu R R, Su D S, Schlgl R, Yokoi T, Tatsumi T. Angew Chem Int Ed, 2006, 45: 3090[21] Xiao F S, Wang L F, Yin C Y, Lin K F, Di Y, Li J X, Xu R R, Su D S, Schlgl R, Yokoi T, Tatsumi T. Angew Chem Int Ed, 2006, 45: 3090
22. [22] Zhao W N, Lin H X, Li Y, Zhang Y F, Huang X, Chen W K. J Nat Gas Chem, 2012, 21: 544[22] Zhao W N, Lin H X, Li Y, Zhang Y F, Huang X, Chen W K. J Nat Gas Chem, 2012, 21: 544

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1.
沈阳化工大学材料科学与工程学院沈阳 110142

具有丰富(001)面的锐钛矿TiO₂晶体的无氟合成

通讯作者: Xiangju Meng

English

Fluoride-free synthesis of anatase TiO₂ crystals rich in (001) facets in the presence of cationic polymer

Corresponding author: Xiangju Meng

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通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

具有丰富(001)面的锐钛矿TiO2晶体的无氟合成

通讯作者: Xiangju Meng

English

Fluoride-free synthesis of anatase TiO2 crystals rich in (001) facets in the presence of cationic polymer

Corresponding author: Xiangju Meng

CCS Chemistry：嵌段共聚物自组装成 “三明治”二维有机材料，实现纳米级压力传感功能

CCS Chemistry：颜徐州、鲍哲南： 你的皮肤可能是一片SPMs

CCS Chemistry：工作高效不疲劳，只须让催化剂动起来

CCS Chemistry：静电组装导向聚合- 聚电解质纳米凝胶量化制备新策略

CCS Chemistry：金黄色葡萄球菌醛基脱氢酶是如何识别特异性底物的？

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通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

具有丰富(001)面的锐钛矿TiO₂晶体的无氟合成

Fluoride-free synthesis of anatase TiO₂ crystals rich in (001) facets in the presence of cationic polymer

CCS Chemistry：颜徐州、鲍哲南：你的皮肤可能是一片SPMs