Materials Reports 2020, Vol. 34 Issue (Z1): 22-25 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
|
|
|
|
|
Research Progress in the Preparation of Molecular Imprinting Titanium Dioxide |
WEI Shengpei
|
Environmental Monitoring Station of Qianxi Prefecture, Guizhou Province, Xingyi 562400, China |
|
|
Abstract The molecular imprinting technique provides a new way to improve the selectivity of titanium dioxide. It has become a hot research topic at present to combine the ability of titanium dioxide to degrade organic pollutants by light excitation with the specific recognition ability of molecularly imprinted polymers. In this paper, the preparation methods of molecularly imprinted titanium dioxide are reviewed. It mainly includes surface molecularly imprinted technology and molecularly imprinted sol-gel technology.
|
Published: 01 July 2020
|
|
About author:: Shengpei Wei, an engineer of Environmental Monitoring Station of Qianxi Prefecture, received his MA. degree in School of Chemistry and Materials Science, Guizhou Normal University in Sep. 2013—Jun. 2016. He has published more than 4 papers in core journals in China. |
|
|
1 Haupt K, Mosbach K. Chemical Reviews,2000,100(7),2495. 2 Pauling L. Journal of the American Chemical Society,1940,62(10),2643. 3 Dichey F H. Proceedings of the National Academy of Sciences,1949,35,277. 4 Dichey F H. The Journal of Physical Chemistry,1955,59(8),695. 5 Wulff G, Sahan A, Zabrocki K. Tetrahedron Letters,1973,14(44),4329. 6 Vlatakis G, Andersson L I, Muller R, et al. Nature,1993,361,645. 7 姜忠义,吴洪.分子印迹技术,化学工业出版社,2003. 8 Ghosh-Mukeiji S, Haick H, Schvartzman M, et al. Journal of the American Chemical Society,2001,123,10776. 9 Paz Y. Comptes Rendus Chimie,2006,9(5-6),774. 10 Shen X T, Zhu L H, Li J. Chemical Communications,2007,11,1163. 11 Shen X T, Zhu L H. Environmental Science & Technology,2008,42,1687. 12 Shen X T, Zhu L H. New Journal of Chemistry,2009,33,2278. 13 Xu P P, Xu W Z, Zhang X J, et al. Adsorption Science & Technology,2009,27(10),975. 14 黄卫红,黄婷婷,徐婉珍,等.中国专利,CN 102600906A,2012. 15 Deng F, Li Y X, Luo X B. Colloids Surfaces A,2012,395,183. 16 吴鹏飞,朱雷,汪恂,等.工业水处理,2019,39(2),26. 17 Wang Z Q, Liu X, Li W Q, et al. Ceramics International,2014,40,8863. 18 刘馨琳,闫永胜,姚冠新,等.中国专利,CN 201210440572.2,2013. 19 Shiraishi Y, Suzuki T, Takayuki H. New Journal of Chemistry,2010,34(4),714. 20 魏声培,安娅,秦好丽.华南农业大学学报,2016,37(4),134. 21 Lu N. Chen S, Wang H, et al. Journal of Solid State Chemistry,2008,181(10),2852. 22 Liu Y, Liu R, Liu C, et al. Hazardous Materials,2010,182,2852. 23 Wang H T, Wu X, Zhao H M, et al. Environmental Chemistry,2012,57(6),601. 24 王凯.分子印迹聚合物的制备及其电化学性能研究.硕士学位论文,湖北大学,2014. 25 Huo P W, Lu Z Y, Liu X L, et al. Chemical Engineering Journal,2012,189,75. 26 Dovrat S, Yaron P. Applied Catalysis B: Environmental,2010,95,169. 27 吕运开,严秀平.分析化学(FENXIHUAXUE)评述与进展,2005,2(33),254. 38 邓芳.TiO2基光催化剂的制备与污染物降解的研究.博士学位论文,南昌大学,2011. 29 王娟.分子印迹、掺杂纳米TiO2光催化剂的制备及其选择性降解水中BPA的研究.硕士学位论文,云南大学,2012. 30 周婉媛,尹佳音,伊玉,等.武汉理工大学学报,2014,36(2),111. 31 张磊,周文静,龚雪云,等.化学研究,2014,25(5),504. 32 尹佳音.印迹型TiO2光催化剂的制备及其光催化性能研究.硕士学位论文,东华大学,2014. 33 魏声培,安娅,秦好丽,等.环境科学与技术, 2017,40(10),36. 34 张阳,安娅,魏声培,等.化工环保,2017,37(4),454. 35 张阳,安娅,魏声培,等.化工新型材料,2018,46(6),194. 36 占昌朝,曹小华,金文雄,等.材料导报:研究篇,2019,33(3),947. 37 王思旋.二氧化钛分子印迹光催化剂的制备和选择性光催化作用.硕士学位论文,华中师范大学,2013. |
|
|
|