Nanofiber-membrane-supported TiO 2 as a catalyst for oxidation of benzene to phenol

Journal of Chemistry

Volumn , Issue , 2013, Pages

  Basheer, Chanbasha ^a,b  

^a KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS   (Saudi Arabia)

^b NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 84864960622     PISSN: 20909063     EISSN: 20909071     Source Type: Journal    
DOI: 10.1155/2013/562305     Document Type: Article

References (26)

1. Haswell S. J., Watts P., Green chemistry: synthesis in micro reactors Green Chemistry 2003 5 2 240 249 (Pubitemid 37487488)
2. Fletcher P. D. I., Haswell S. J., Pombo-Villar E., Warrington B. H., Watts P., Wong S. Y. F., Zhang X., Micro reactors: principles and applications in organic synthesis Tetrahedron 2002 58 24 4735 4757 (Pubitemid 34628831)
3. Brivio M., Verboom W., Reinhoudt D. N., Miniaturized continuous flow reaction vessels: influence on chemical reactions Lab on a Chip 2006 6 3 329 344 (Pubitemid 43327558)
4. Jakeway S. C., de Mello A. J., Russell E. L., Miniaturized total analysis systems for biological analysis Fresenius' Journal of Analytical Chemistry 2000 366 525 539
5. Lwe H., Ehrfeld W., State-of-the-art in microreaction technology: concepts, manufacturing and applications Electrochimica Acta 1999 44 21 3679 3689
6. Kikutani Y., Hibara A., Uchiyama K., Hisamoto H., Tokeshi M., Kitamori T., Pile-up glass microreactor Lab on a Chip 2002 2 4 193 196 (Pubitemid 37254478)
7. Wiles C., Watts P., Haswell S. J., Pombo-Villar E., The application of microreactor technology for the synthesis of 1,2-azoles Organic Process Research and Development 2004 8 1 28 32 (Pubitemid 38175711)
8. Jensen K. F., Microreaction engineeringis small better? Chemical Engineering Science 2001 56 293 303
9. Roberge D. M., Ducry L., Bieler N., Cretton P., Zimmermann B., Microreactor technology: a revolution for the fine chemical and pharmaceutical industries? Chemical Engineering and Technology 2005 28 3 318 323 (Pubitemid 40435948)
10. Basheer C., Jahir Hussain F. S., Lee H. K., Valiyaveettil S., Design of a capillary-microreactor for efficient Suzuki coupling reactions Tetrahedron Letters 2004 45 39 7297 7300 (Pubitemid 39207865)
11. Basheer C., Swaminathan S., Lee H. K., Valiyaveettil S., Development and application of a simple capillary-microreactor for oxidation of glucose with a porous gold catalyst Chemical Communications 2005 3 409 410 (Pubitemid 40187651)
12. PERP Program, Phenol/Acetone/Cumene News Report Alert 2007 Nexant ChemSystems
13. Schmidt R., Industrial catalytic processesphenol production Applied Catalysis A 2005 280 1 89 103
14. Tanarungsun G., Kiatkittipong W., Assabumrungrat S., Yamada H., Tagawa T., Praserthdam P., Multi transition metal catalysts supported on TiO 2 for hydroxylation of benzene to phenol with hydrogen peroxide Journal of Industrial and Engineering Chemistry 2007 13 5 870 877
15. Oliveira R. T. S., Salazar-Banda G. R., Santos M. C., Calegaro M. L., Miwa D. W., Machado S. A. S., Avaca L. A., Electrochemical oxidation of benzene on boron-doped diamond electrodes Chemosphere 2007 66 11 2152 2158 (Pubitemid 46073036)
16. Li Y., Boone E., El-Sayed M. A., Size effects of PVP-Pd nanoparticles on the catalytic Suzuki reactions in aqueous solution Langmuir 2002 18 12 4921 4925 (Pubitemid 35383568)
17. Mizuno T., Yamada H., Tagawa T., Goto S., Partial oxidation of benzene in benzene-water bi-phase system Journal of Chemical Engineering of Japan 2005 38 10 849 853 (Pubitemid 41553014)
18. Walling C., Johnson R. A., Fenton's reagent. V. Hydroxylation and side-chain cleavage of aromatics Journal of the American Chemical Society 1975 97 2 363 367
19. Wu Y., Xing M., Zhang J., Chen F., Effective visible light-active boron and carbon modified TiO 2 photocatalyst for degradation of organic pollutant Applied Catalysis B 2010 97 1-2 182 189
20. Kunai A., Hata S., Ito S., Sasaki K., Mechanistic study of air oxidation of benzene in sulfuric acid catalyzed by cuprous ions Journal of Organic Chemistry 1986 51 18 3471 3474
21. Kachina A., Preis S., Kallas J., Catalytic TiO 2 oxidation of ethanethiol for environmentally begnin air pollution control of sulphur compounds Environmental Chemistry Letters 2006 4 2 107 110 (Pubitemid 43834339)
22. Ramaswamy V., Awati P., Ramaswamy A. V., Epoxidation of indene and cyclooctene on nanocrystalline anatase titania catalyst Topics in Catalysis 2006 38 4 251 259
23. Zumeta I., Daz D., Santiago P., Synthesis of TiO 2 nanoparticles with narrow size distribution and their evaluation in the photocatalytic oxidative degradation of bis(4-nitrophenyl) phosphate Journal of Physical Chemistry C 2010 114 26 11381 11389
24. Tanarungsun G., Kiatkittipong W., Assabumrungrat S., Yamada H., Tagawa T., Praserthdam P., Fe(III), Cu(II), V(V)/TiO 2 for hydroxylation of benzene to phenol with hydrogen peroxide at room temperature Journal of Chemical Engineering of Japan 2007 40 5 415 421 (Pubitemid 46876801)
25. Park H., Choi W., Photocatalytic conversion of benzene to phenol using pure and modified TiO 2 Catalysis Today 2005 101 291 297
26. Leng W. H., Zhu W. C., Ni J., Zhang Z., Zhang J. Q., Cao C. N., Photocatalytic destruction of organic using TiO 2 as a photoanode with simultaneous production of H 2 O 2 at thecathode Applied Catalysis A 2006 300 24 35 (Pubitemid 41827892)