Surface Curing and Properties of Titanium Dioxide Self - Cleaning Ceramics

Xiwen Liu, Yao Tong, ,Jia Chen

Article ID: 364
Vol 2, Issue 1, 2019

VIEWS - 1703 (Abstract) 539 (PDF)

Abstract


In this paper, the curing mechanism of TiO2 photocatalytic film on the ceramic surface is introduced, and the relationship between photocatalysis, hydrophilicity and self-cleaning properties of TiO2 ceramics is analyzed. Finally, the mechanism of antimicrobial properties of TiO2 ceramics and its relationship with temperature were analyzed.


Full Text:

PDF


References


1. Shi Zuofeng, Bao Fanfan, Jin Qian, etc .. TiO2 / ceramic photocatalytic self-cleaning sterilisation performance

2. [J]. Environmental Science and Technology, 2008,31 (8): 110 ~ 112.

3. ZHANG Xiao-liang, CHEN Jian-hua, LIU Ying-xue.Study on preparation and structure and morphology of ceramic tile glazed TiO2 [J]. Journal of Shanghai Institute of Applied Technology, 2004, 4 (1): 68 ~ 72.

4. Li Xia, Wang Xiaoxia, Liu Suwen. Preparation of glazed tile by sol-gel method and photocatalytic performance [J]. China Ceramics Industry, 2003, 10 (1): 14 ~

5. HE Fei, TANG Hua-jun, ZHAO Wen-kuan, et al. Titanium dioxide photocatalytic self-cleaning ceramics and its preparation method [P]. China: CN1336352A, 2002-2-20.

6. Cao Chun’e, Gu Xingyong. Inorganic materials testing technology [M]. Wuhan: Wuhan University of Technology Press, 2001:

7. ~ 180.

8. Liu Qinhua. Sol-gel process for the preparation of titanium dioxide self-cleaning film [D]. Hangzhou: Zhejiang University, 2004.

9. Zhang Qinghong. Titanium dioxide-based nano-materials and its research in clean energy technology [J]. Journal of Inorganic Materials, 2012, 27 (1): 1 ~ l0.

10. Huang Huining, Ke Shanjun, Meng Qingjuan, et al. Application of nano-TiO2 in architectural sanitary ceramics [J]. Ceramics, 2012, 39 (3): 12 ~ 15.

11. Yu Jianguo, Zhao Xiujian, Zhao Qingnan. Effect of surface morphology of photocatalytic porous TiO2 film on hydrophilicity [J]. Chinese Journal of Ceramics, 2000, 28 (3): 245-250.

12. Wang Qianping, Wu Weihua, Fu Wei, etc. Self-cleaning antibacterial ceramic technology status and development [J]. Ceramics, 2003, 30 (4): 45 ~ 48.

13. Yu Jianguo, Zhao Xiujian. Effect of Surface Microstructure of Porous TiO2 Films on Photocatalytic Decolorization of Methyl Orange [J]. Journal of Catalysis, 2000, 21 (5): 213-216.

14. Zhang Lu. Preparation of Highly Photocatalytic Titanium Dioxide Thin Films by Sol-Gel Method [D]. Guangzhou: South China University of Technology, 2013.

15. Su Huazhi, Peng Cheng ,, Wu Jianqing. Effect of glaze components on TiO2 transformation in photocatalytic ceramics [C]. 2013 Guangdong Materials Development Forum - Strategic Emerging Industry Development and New Materials Science and Technology Innovation Seminar Abstracts, 2013, 65.

16. REN Xue-chang, SHI Zu-feng, KONG Ling-ren, et al. Study on the load and photocatalytic performance of nano-TiO2 thin films on different ceramic surfaces [J]. Environmental Pollution Control Technology and Equipment, 2006, 27 (2): 25 ~

17. WANG R, HASHI MOTO K, FUJISHI MA A, et al. Light-i nduced amphi philic surfaces [J]. Nature, 1997, 388 (31): 431-

18. [J]. Chinese Journal of Ceramics, 2003,31 (3): 219 ~ 223. [16] Guan Kai-shu, Yin Yan-sheng, Jiang Qiupeng.Study on the relationship between photocatalytic activity and hydrophilicity of TiO2 / SiO2 composite thin films [J].

19. Kang Chunli, Wang Yang, Yu Hongbing, et al. Characterization and photocatalytic properties of TiO2 thin films prepared by hydrolysis of TiC14 [J]. Chinese Journal of Applied Chemistry, 2005, 22 (4): 412-416.

20. Shimada K, Shimahara K. Kesponsibility of hydrogen peroxide for the lethality of renting L; scherichia coli J3 cells exposed to alternating current in phosphate buffer solution [J]. Agricultural arrd Biological Chemi.stry, 1982, 46 (5): 1329 ~ 1337.

21. Huang NP, MinArua X, Yuan CW, et al. The study of the pho tokilling effect and mechanism of ultrafine TiO2 particles on U937 cells [J]. Jounral of Photochemi.stry acrd Photobiology A: Chemi.stry, 1997, 108 (2): 229 ~ 233.[J]. Materials Engineering, 2006, (Z1): 222 ~ 224. [J]. Materials Engineering, 2006, (Z1): 222 ~ 224. [J]. Materials Engineering, 2006, (Z1):

22. ~ 224.




DOI: https://doi.org/10.24294/cse.v1i1.364

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

This site is licensed under a Creative Commons Attribution 4.0 International License.