钛基纳米管的制备、性质及在环保领域的应用

Preparation, Characterization and Environmental Application of Titanate Nanotubes

下载PDF

导出

摘要介绍了水热法制备钛基纳米管的条件以及钛基纳米管的形成机理,并阐述了钛纳米片卷曲成管的驱动力;总结了钛基纳米管的组成以及不同洗涤和热处理过程对其组成的影响;介绍了不同实验研究钛基纳米管的表面特性、离子交换特性和热稳定性的结论,并对其原理进行了阐述;围绕脱硝催化剂、光催化剂和重金属捕集三个方面,探讨了钛基纳米管在环保领域的应用。 The preparation condition and formation mechanism of titanate nanotubes by hydrothermal method were introduced in this paper. The driving force from titanate nanosheet to nanotubes was expounded. Researches on the surface feature, ion-exchange capability and thermal stability of titanate nanotubes were summarized, and the related mechanisms were explained. Lastly, the environmental applications of titanate nanotubes in de NOx catalysts, photocatalysts and heavy metal collectors were discussed.

作者杨巧玲

机构地区广州市海洋与渔业环境监测中心

出处《广东化工》 CAS 2015年第19期105-106,共2页 Guangdong Chemical Industry

关键词钛基纳米管水热法环境保护 titanate nanotube hydrothermal method environmental protection

分类号 TQ [化学工程]

引文网络
相关文献

参考文献18

1Kasuga T, Hiramatsu M, Hoson A, et al. Formation of titanium oxide nanotube[J]. Langmuir, 1998, 14(12): 3160-3163.
2Yao B D, Chan Y F, Zhang X Y, et al. Formation mechanism of TiO2 nanotubes[J]. Applied Physicsketters, 2003, 82(2): 281-283.
3Yang Jianjun, Jin Zhensheng, Wang Xiaodong, et al. Study on composition, structure and formation process of nanotube Na2Ti204(OH)2[J]. Dalton Transactions, 2003, (20): 3898-3901.
4Nakahira Atsushi, Kubo Takashi, Numako Chiya. Formation Mechanism of TiO2-Derived Titanate Nanotubes Prepared by the Hydrothennal Process[J]. lnorganic Chemistry, 2010, 49(13): 5845-5852.
5Zhang S, Peng L M, Chen Q, et al. Formation Mechanism of H2Ti3O7 Nanotubes[J]. Physical ReviewLetters, 2003, 91(25): 256103.
6Sun X M, Li Y D. Synthesis and characterization of ion-exchangeable titanate nanotubes[J]. Chemistry-a European Journal, 2003, 9(10): 2229-2238.
7Tsai Chien-Cheng, Teng Hsisheng. Structural Features of Nanotubes Synthesized from NaOH Treatment on TiO2 with Different Post-Treatments[J]. Chemistry of Materials, 2005, 18(2): 367-373.
8Bavykin Dmitry V, Carravetta Marina, Kulak Alexander N, et al. Application of Magic-Angle Spinning NMR to Examine the Nature of Protons in Titanate Nanotubes[J]. Chemistry of Materials, 2010, 22(8): 2458-2465.
9Jr Edisson Morgado, Jardim PM, Marinkovic Bojan A, et al. Multistep structural transition of hydrogen trititanate nanotubes into TiO2-B nanotubes: a comparison study between nanostructured and bulk materials[J]. Nanotechnology, 2007, 18(49): 495710.
10Ma Renzhi, Sasaki Takayoshi, Bando Yoshio. Alkali metal cation intercalation properties of titanate nanotubes[J]. Chemical Communications, 2005(7).

二级参考文献14

1袁涛,王晓宇,栗再新,陈志.核废物处理途径的探讨[J].科学技术与工程,2004,4(10):861-867. 被引量：13
2王璟琳,刘国宏,张新荣.纳米材料吸附剂的研究进展[J].分析化学,2005,33(12):1787-1793. 被引量：22
3王美丽,宋功保,李健,张宝述.水热法制备钛酸盐纳米管的研究进展[J].材料导报,2006,20(F11):121-123. 被引量：5
4龚强,江志东,田峰,蒋淇忠,马紫峰.水热条件下钛酸钠盐纳米晶须与纳米管的选择制备[J].材料科学与工程学报,2007,25(1):43-47. 被引量：9
5M.Nyman, A.Trioathi, J.B.Parise, R.S.Maxwell, T.M.Nenoff, Sandia octahedral molecular sieves(sores): structural and property effects of charge-balancing the M IV-Substituted (M-Ti, Zr) Niobate Framework, J. Am. Chem. Soc., 124, 1704(2002).
6E.M.Saad, R.A.Mansour, A.El-Asmy, M.S.El-Shahawi, Sorption profile and chromatographic separation of uranium (VI) ions from aqueous solutions onto date pits solid sorbent, Talanta, 5, 1041(2008).
7H.Y.Zhu, X.P.Gao, Y.Lan, D.Y.Song, Y.X.Xi, J.C.Zhao, Hydroden titanate nanofibers covered with anatase nanocrystals: a delicate structure achieved by the wet chemistry reactionofthe titnate nanofibers, J. Am. Chem. Soc., 126, 8380(2004).
8D.J.Yang, Z.F.Zheng, H.Y.Zhu, H.W.Liu, X.P.Gao, Titanate nanofibers as intelligent absorbents for the removal of radioactive ions from water, Adv. Mater., 20, 2777(2008).
9X.Wu, Q.Z.Jiang, Z.F.Ma, M.Fu, W.Feng, S.guan, Synthesis of titania nanotubes by microwave irradiation, Solid State Commun., 136, 513(2005).
10S.S.Liu, C.K.Lee, H.C.Chen, C.C.Wang, L.C.Juang, Application of titanate nanotubes for Cu (Ⅱ)ions adsorptive removal from aqueous solution, Chem. Eng. J., 147, 188(2009).

共引文献9

1张麟熹,孙玉珍,罗明标,刘淑娟,胡军.磷酸三丁酯修饰Ti纳米晶须应用于吸附铀酰离子[J].复合材料学报,2011,28(3):96-102. 被引量：6
2刘小平,李芳清,杜兴胜,王红海.一维钛纳米材料的SEM和TEM形貌研究[J].材料导报（纳米与新材料专辑）,2011,25(1):116-118.
3刘淑娟,李金英,罗明标,杨佳,张麟熹.纯化及羧化多壁碳纳米管吸附铀的研究[J].核化学与放射化学,2011,33(5):285-290. 被引量：8
4张思纬,刘峙嵘.放射性核素吸附行为的研究综述[J].铀矿冶,2011,30(4):216-220. 被引量：2
5王兴慧,朱桂茹,高从堦.短孔道介孔二氧化硅SBA-15对铀的吸附性能[J].化工学报,2013,64(7):2480-2487. 被引量：20
6刘建亮,罗明标,袁自遵,平爱东,侯艳巧.钛酸纳米晶须的制备及其对Th(Ⅳ)的吸附性能研究[J].功能材料,2013,44(23):3496-3501. 被引量：5
7杨巧玲,李万霞,叶淑迎.钛纳米管净化渔业养殖水中重金属的实验研究[J].广东化工,2016,43(13):41-42. 被引量：2
8于静,王建龙.无机吸附材料处理放射性废水中铀的研究进展[J].核化学与放射化学,2018,40(2):81-88. 被引量：9
9孙燕,田素燕,熊丽娟,王娣,杨宏伟,马军.吸附技术在铀分离富集过程中的应用研究[J].材料化学前沿,2016,4(1):1-7.

1李增新,王国明.凹凸棒石负载壳聚糖吸附废水中Cr（Ⅵ）的研究[J].水处理信息报导,2008(6):57-57.
2曹冬梅,王颖,张雨山,姚颖,高书宝,张慧峰,马来波.磷钼酸铵提取铷离子的工艺研究[J].盐业与化工,2014,43(9):22-24. 被引量：6
3唐甜.轻质、超强纳米管量产技术变革工业生产[J].军民两用技术与产品,2016,0(7):38-39.
4朱茂华,谷彤昭,曹望和,夏天.Er^(3+)/Yb^(3+)共掺光波导激光玻璃的光谱特性研究[J].光电子技术与信息,2005,18(1):15-18. 被引量：1
5杨雷,唐元洪,赵世华,陈江华,胡爱平,王倩,汪国忠.溶剂热辅助法控制合成ZnO纳米结构及其光学性质研究[J].湖南大学学报（自然科学版）,2009,36(5):57-62.
6科研人员实现三维结构上多种细胞的可控分布[J].中国科学院院刊,2012,27(2):252-252.
7陈文,麦立强,徐庆,彭俊锋,朱泉峣,余华.氧化钒纳米管的自组装合成机理[J].无机材料学报,2005,20(1):65-70. 被引量：11
8康维钧,刘满英.玉米麸质对Hg^(Ⅱ)捕集能力研究初探[J].河北化工,1989(2):22-23.
9金丽笙.一种新型胶带输送机——管状胶带机[J].水泥,1991(6):44-45.
10科技要闻[J].科技导报,2012,30(7):14-14.

广东化工

2015年第19期

浏览历史

内容加载中请稍等...

钛基纳米管的制备、性质及在环保领域的应用

参考文献18

二级参考文献14

共引文献9

相关作者

相关机构

相关主题

浏览历史