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Oxidative-Coupling Reaction of Aromatic Compounds by Mn Oxide and Its Application for Contaminated Soil Remediation
Kang, Ki-Hoon;Shin, Hyun-Sang;Nam, Kyoung-Phile;
Technology Research Institute, Dealim Industrial Co., Ltd.;Department of Environmental Engineering, Seoul National University of Technology;School of Civil, Urban and Geosystem Engineering, Seoul National University;
망간산화물에 의한 방향족 유기화합물의 산화-공유결합반응 및 이를 이용한 오염토양 정화기법
강기훈;신현상;남경필;
대림산업(주) 기술연구소;서울산업대학교 환경공학과;서울대학교 지구환경시스템공학부;

References

1. 이두희, 신현상, 임동민, 강기훈, 2007, 천연 망간산화물에 의한 페놀계 화합물의 제거특성 비교, 대한환경공학회.한국대기환 경학회.한국폐기물학회 2007년 공동학술대회 논문집(CD Rom), p. 1656-1660
2. 이승환, 정재웅, 류혜림, 김영진, 남경필, 2007, 돌연변이 미생물 균주와 birnessite를 이용한 토양 내 phenanthrene 제거, 대한환경 공학회.한국대기환경학회.한국폐기물학회 2007년 공동학술 대회 논문집(CD Rom), p. 938-941
3. 임동민, 강기훈, 신현상, 2006, 망간산화물을 이용한 1-Naphthol 의 산화 제거 연구, 대한환경공학회, 28(5), 535-542
4. Agrawal, A. and Tratnyek, P.G., 1996, Reduction of nitro aromatic compounds by zero-valent iron metal, Environ. Sci. Technol., 30, 153-160
5. Alexander, M., 1994, Biodegradation and bioremediation, Academic Press, San Diego, CA.
6. Alexander, M., 1995, How toxic are toxic chemicals in soil?, Environ. Sci. Technol., 29, 2713-2712
7. Baker, M.D. and Mayfield, C.I., 1980, Microbial and nonmicrobial decomposition of chlorophenols and phenols in soil, Water Air Soil Pollut., 13, 411-424
8. Bollag, J.-M., 1983, In Aquatic and terrestrial humic substances, Christman, R. F., Gjessing, E. T., Eds., Ann Arbor Science Publishers, Ann Arbor, MI., p. 127-141
9. Bollag, J.-M., 1992, Decontaminating Soil with Enzymes: An in situ method using phenolic and anilinic compounds, Environ. Sci. Technol., 26, p. 1876-1881
10. Bollag, J.-M., Shuttleworth, K.L., and Anderson, D.H., 1988, Laccase-mediated detoxification of phenolic compounds, Appl. Environ. Microbiol., 54, 3086-3091
11. Bollag, J.-M., Myers, C., Pal, S., and Huang, P.M., 1995, The role of abiotic and biotic catalysts in the transformation of phenolic compounds, In Environmental impact of soil component interactions, Vol. 1, P. M. Huang et al., Eds., CRC/Lewis Publishers, p. 299-310
12. Calderbank, A., 1989, The occurrence and significance of bound pesticide residues in soil, Rev. Environ. Contam. Toxicol., 108, 71-103
13. Call, H.P. and Mucke, I., 1997, History, overview and application of mediated lignolytic systems, especially laccase-mediatorsystems (Lignozym-Process), J. Biotechnol., 53, 163-202
14. Dec, J. and Bollag, J.-M., 1988, Microbial release and degradation of catechol and chlorophenols bound to synthetic humus, Soil Sci. Soc. Am. J., 52, 1366-1371
15. Dec, J. and Bollag, J.-M., 1994, Dehalogenation of chlorinated phenols during oxidative coupling, Environ. Sci. Technol., 28, 484-490
16. Dec, J. and Bollag, J.-M., 1997, Determination of covalent and noncovalent binding interactions of water polluted with phenols, Biotechnol. Bioeng., 44, 1132-1139
17. Dec, J., Haider, K., Rangaswamy, V., Schffer, A., Fernandes, E., and Bollag, J.-M., 1997, Formation of soil-bound residues of cyprodinil and their plant uptake, J. Agric. Food Chem., 45, 514-520
18. Evans, C.S., Dutton, M.V., Guillen, F., and Veness, R.G., 1994, Enzymes and small molcular mass agents involved with lignocellulose degradation, FEMS Microbiol. Rev., 13, 235-240
19. Hatzinger, P.B. and Alexander, M., 1995, Effect of aging of chemicals in soil on their biodegradability and extractability, Environ. Sci. Technol., 29, 537-545
20. Hsu, T.-S. and Bartha, R., 1974, Biodegradation of chloroaniline-humus complexes in soil and in culture solution, Soil Sci., 118, 213-220
21. Jung, J.-W., Lee, S., Ryu, H., Nam, K., and Kang, K.-H., 2007a, Enhanced reactivity of hydroxylated PAHs to birnessite in soil: reaction kinetics and nonextractable residue formation, Environ. Toxicol. Chem., In Press
22. Jung, J.-W., Lee, S.H., Ryu, H., Kang, K.-H., and Nam, K., 2007b, Detoxification of phenol through bound residue formation by birnessite in soil: transformation kinetics and toxicity, Environ. Sci. Health Part A, In Press
23. Kang, K.-H. and Park, H., 2006, Oxidative-coupling reaction of phenolic and aniline compounds using primary mineral of Mn oxide, Advances in Asian Environ. Eng., 5(1), 1-8
24. Kang, K.-H., Dec, J., Park, H., and Bollag, J.-M., 2002, Transformation of the fungicide cyprodinil by a laccase of Trametes villosa in presence of phenolic mediators and humic acids, Wat. Res., 36, 4907-4915
25. Kang, K.-H., Dec, J., Park, H., and Bollag, J.-M., 2004, Effect of phenolic mediators and humic acid on cyprodinil transformation in presence of birnessite, Wat. Res., 38, 2737-2745
26. Kang, K.-H., Lim, D.-M., and Shin, H., 2006, Oxidative-coupling reaction of TNT reduction products by manganese oxide, Wat. Res., 40(5), 903-910 (2006)
27. Karam, J. and Nicell, J.A., 1997, Potential applications of enzymes in waste treatment, J. Chem. Tech. Biotechnol., 69, 141-153
28. Kim, J.-E., Fernandes, E., and Bollag, J.-M., 1997, Enzymatic coupling of the herbicide bentazon with humus monomers and characterization of reaction products, Environ. Sci. Technol., 31(8), 2392-2398
29. Klibanov, A.M. Alberti, B.N., Morris, E.D., and Felshin, L.M., 1980, Enzymatic removal of toxic phenols and anilines from wastewater, J. Appl. Biochem., 2, 414-421
30. Kung, K.-H. and McBride, M.B., 1988, Electron transfer processes between hydroquinone and hausmannite ($Mn_3O_4$), Clays and Clay Minerals, 36, 297-302
31. Leonowicz, A. and Bollag, J.-M., 1987, Laccases in soil and the feasibility of their extraction, Soil Biol. Biochem., 19, 237-242
32. Majcher, E.H., Chorover, J., Bollag, J.-M., and Huang, P.M., 2000, Evolution of $CO_2$ during birnessite-induced oxidation of $^{14}C$-labeled catechol, Soil Sci. Soc. Am. J., 64, 157-163
33. McBride, M.B., 1987, Adsorption and oxidation of phenolic compounds by iron and manganese oxides, Soil Sci. Soc. Am. J., 51, 1466-1472
34. McBride, M.B., 1989, Oxidation of dihydroxybenzens in aerated aqueous suspensions of birnessite, Clays and Clay Minerals, 37, 341-347
35. Nico, P.S. and Zasoski, R.J., 2000, Importance of Mn(III) availability on the rate of Cr(III) oxidation on $\delta-MnO_2$, Environ. Sci. Technol., 34, 3363-3367
36. Oscarson, D.W., Huang, P.M., Defosse, C., and Herbillon, A., 1981, Oxidative power of Mn(IV) and Fe(III) oxides with respect to As(III) in terrestrial and aquatic environments, Nature (London), 291, 50-51
37. Park, J.-W, Dec, J., Kim, J.-E., and Bollag, J.-M., 1999, Effect of humic constituents on the transformation of chlorinated phenols and anilines in the presence of oxidoreductive enzymes or birnessite, Environ. Sci. Technol., 33, 2028-2034
38. Pizzigallo, M.D.R., Ruggiero, P., Crecchio, C., and Mininni, R., 1995, Manganese and iron oxides as reactants for oxidation of chlorophenols, Soil Sci. Soc. Am. J., 59, 444-452
39. Roberts, T.R., Klein, W., Still, G.G., Kearney, P.C., Drescher, N., Desmoras, J., Essen, H.O., Aaharonson, N., and Vonk, J., 1984, Non-extractable pesticide residues in soils and plants, Pure Appl. Chem., 56, 945-956
40. Shindo, H. and Huang, P.M., 1982, Role of Mn(IV) oxide in abiotic formation of humic substances in the environment, Nature (London), 298, 363-365
41. Sjoblad, R.D. and Bollag, J.-M., 1981, Oxidative coupling of aromatic compounds by enzymes from soil microorganisms, In: Soil Biochemistry, Vol. 5, Paul, E. A., and Ladd, J. N. Eds., Marcel Dekker, New York., p. 113-152
42. Skujins, J.J., 1967, Enzymes in soil, In: McLaren, A.D., and Peterson, G.H. Eds., Soil biochemistry, Vol. 1, Marcel Dekker, New York, p. 371-414
43. Stone, A.T., 1987, Reductive dissolution of manganese(III/IV) oxides by substituted phenols, Environ. Sci. Technol., 21, 979-988
44. Stone, A.T. and Morgan, J.J., 1984, Reduction and dissolution of manganese(III) and manganese(IV) oxides by organics. 1. Reaction with Hydroquinone, Environ. Sci. Technol., 18, 450-456
45. Sunda, W.G. and Kieber, D.J., 1994, Oxidation of humic substances by manganese oxides yields low-molecular-weight organic substances, Nature (London), 367, 62-64
46. Thorn, K.A., Pettigrew, P.J., Golbenberg, W.S., and Weber, E.J., 1996, Covalent binding of aniline to humic substances. 2. $^{15}N$NMR studies of nucleophilic addition reactions, Environ. Sci. Technol., 30, 2764-2775
47. Wang, M.C. and Huang, P.M., 1992, Significance of Mn(IV) oxide in the abiotic ring cleavage of pyrogallol in natural environments, Sci. Total Environ., 113, 147-157
48. Weber, Jr., W.J. and Huang Q., 2003, Inclusion of persistent organic pollutants in humification processes: direct chemical incorporation of phenanthrene via oxidative coupling, Environ. Sci. Technol., 37, 4221-4227

This Article

2007; 12(5): 115-123

Published on Oct 31, 2007

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