Photocatalytic degradation of cyanide using titanium dioxide modified with copper oxide

被引:168
作者
Chiang, K [1 ]
Amal, R [1 ]
Tran, T [1 ]
机构
[1] Univ New S Wales, Sch Chem Engn & Ind Chem, Ctr Particle & Catalyst Technol, Sydney, NSW 2052, Australia
来源
ADVANCES IN ENVIRONMENTAL RESEARCH | 2002年 / 6卷 / 04期
关键词
photocatalysis; cyanide; photodeposition; oxidation; copper-doped titanium dioxide;
D O I
10.1016/S1093-0191(01)00074-0
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Copper (II) oxide was loaded onto the surface of Degussa P25 TiO2 particles by photodeposition. The doped material was subsequently utilized as the photocatalyst for cyanide oxidation. The copper content on the TiO2 surface was varied from 0.05 to 10.0 at.% of Cu. It was found that nanosized CuO deposits were present on the surface of TiO2. Modifying TiO2 With CuO changed the optical properties of TiO2 and the onset of absorption was red shifted. The photocatalytic activity of the CuO loaded TiO2 catalysts was measured to determine their ability to oxidize cyanide. It was found that the rate of photooxidation of cyanide assisted with the doped catalyst was improved slightly at 0.10 at.% Cu. Any further increase of the copper dopant concentration decreased the oxidation rate markedly. The presence of Cu2+ ions (0.002-0.5 mM) in the solution also decreased the photocatalytic degradation of CN-. The decrease in the activity was explained in terms of the competition reaction of Cu(I) cyanide complex ions for surface hydroxyl radicals. In all cases cyanide was being oxidized to cyanate, the end product of cyanide photooxidation. (C) 2002 Elsevier Science Ltd. All rights reserved.
引用
收藏
页码:471 / 485
页数:15
相关论文
共 51 条
[31]  
Howe RF., 1998, Dev. Chem. Eng. Mineral Process, V6, P55, DOI [10.1002/apj.5500060105, DOI 10.1002/APJ.5500060105, 10.1002/APJ.5500060105]
[32]   COPPER PHOTODEPOSITION ON TIO2 STUDIED WITH HREM AND EXAFS [J].
JACOBS, JWM ;
KAMPERS, FWH ;
RIKKEN, JMG ;
BULLELIEUWMA, CWT ;
KONINGSBERGER, DC .
JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1989, 136 (10) :2914-2923
[33]   EFFECT OF PARENT TITANIUM-OXIDE ON THE PHYSICOCHEMICAL PROPERTIES OF CU-TI OXIDE CATALYSTS [J].
KOMOVA, OV ;
TSYKOZA, LT ;
SIMAKOV, AV ;
USHAKOV, AV ;
BOLSHOV, VA ;
BARANNIK, GB ;
ISMAGILOV, ZR .
REACTION KINETICS AND CATALYSIS LETTERS, 1994, 52 (01) :129-137
[34]   PULSE-RADIOLYSIS OF CYANATE ANION IN AQUEOUS-SOLUTION [J].
LEOPOLD, JG ;
FARAGGI, M .
JOURNAL OF PHYSICAL CHEMISTRY, 1977, 81 (08) :803-806
[35]   An overview of semiconductor photocatalysis [J].
Mills, A ;
LeHunte, S .
JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY, 1997, 108 (01) :1-35
[36]   INHIBITION OF ELECTRON-HOLE RECOMBINATION IN SUBSTITUTIONALLY DOPED COLLOIDAL SEMICONDUCTOR CRYSTALLITES [J].
MOSER, J ;
GRATZEL, M ;
GALLAY, R .
HELVETICA CHIMICA ACTA, 1987, 70 (06) :1596-1604
[37]   Iron-doped titania semiconductor powders prepared by a sol-gel method.: Part I:: synthesis and characterization [J].
Navío, JA ;
Colón, G ;
Macías, M ;
Real, C ;
Litter, MI .
APPLIED CATALYSIS A-GENERAL, 1999, 177 (01) :111-120
[38]   HETEROGENEOUS PHOTOCATALYTIC DECOMPOSITION OF PHENOL OVER TIO2 POWDER [J].
OKAMOTO, K ;
YAMAMOTO, Y ;
TANAKA, H ;
TANAKA, M ;
ITAYA, A .
BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1985, 58 (07) :2015-2022
[39]   ACTIVITY OF CHROMIUM-ION-DOPED TITANIA FOR THE DINITROGEN PHOTOREDUCTION TO AMMONIA AND FOR THE PHENOL PHOTODEGRADATION [J].
PALMISANO, L ;
AUGUGLIARO, V ;
SCLAFANI, A ;
SCHIAVELLO, M .
JOURNAL OF PHYSICAL CHEMISTRY, 1988, 92 (23) :6710-6713
[40]   PHOTOCATALYTIC OXIDATION OF CYANIDE TO NITRATE AT TIO2 PARTICLES [J].
POLLEMA, CH ;
HENDRIX, JL ;
MILOSAVLJEVIC, EB ;
SOLUJIC, L ;
NELSON, JH .
JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY, 1992, 66 (02) :235-244
123456