Nanoparticulate Functional Materials: Green Synthesis and Application for the Degradation of Phenolic Compounds

Feng Zhang

doi:10.4028/www.scientific.net/AMR.476-478.1608

Paper Titles

Study on Waterproof and Water-Resistant Properties of Gypsum
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The Surface Characteristics of Exterior Wall External Insulation System with Foamed Glass in Weathering Resistance Test
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Study on Model Test and Consolidating Mechanism of Piles Thrusted-Expanded in Column-Hammer
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 476-478Nanoparticulate Functional Materials: Green...

Nanoparticulate Functional Materials: Green Synthesis and Application for the Degradation of Phenolic Compounds

Abstract:

Zinc oxide nanoparticles was synthesized by microwave decomposition of zinc acetate precursor. Horseradish peroxidase (HRP) was immobilized on nano-ZnO. The catalytic activity, physical, and chemical properties of immobilized HRP as well as the interaction between HRP and nano-ZnO was studied. The Nano-ZnO immobilized HRP showed a better property in the thermostability, active pH stability. The Nano-ZnO is more effective than free HRP in the removal of many phenolic compounds. The results show that nano-ZnO is strong functional materials for envrionment protection.

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Advanced Materials Research (Volumes 476-478)

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1608-1611

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https://doi.org/10.4028/www.scientific.net/AMR.476-478.1608

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Online since:

February 2012

Authors:

Feng Zhang

Keywords:

Enzyme Immobilization, Nano-ZnO, Phenolic Compound Degradation

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References

[1] Y. Zhao , H. S. Nalwa , Nanotoxicology – Interactions of Nanomaterials with Biological Systems , American Scientifi c Publishers , California 2006 .

Google Scholar

[2] B.G. Milagres, L.T. Kubota, G. Oliveira Neto, Electroanalysis 8 (1996) 489.

Google Scholar

[3] Liu, Z.; Robinson, J. T.; Sun, X.; Dai, H. J. Am. Chem. Soc. 2008, 130, 10876 –10877.

Google Scholar

[4] K. Francova, M. Mackov, T. Macek and M. Sylvestre, Environmental Pollution, 2004, 127, 41-48

Google Scholar

[5] R. L. Autenrieth, J. S. Bonner, A. Akgerman, M. Okaygun and E. M. McCreary, Journal of Hazardous Materials, 1991, 28, 29-53.

DOI: 10.1016/0304-3894(91)87004-l

Google Scholar

[6] J. A. Klein and D. D. Lee, Biotechnol. Bioeng. Symp, 1978, Medium: X; Size: Pages: 379-390.

Google Scholar

[7] W. M. Throop, Journal of Hazardous Materials, 1975, 1, 319-329

Google Scholar

[8] A. B. Klibanov AM, Morris Ed, Felshin LM, J Appl Biochem, 1980, 1980, 414-421

Google Scholar

[9] M. E. Klibanov AM, Enzyme Microb Technol 1981, 3, 119-122.

Google Scholar

[10] Uwe T. Bornscheuer, Angewandte Chemie International Edition, 2003, 42, 3336-3337

Google Scholar

[11] B. C. F. I. o. E. a. Cell, Human Press, 1997.

Google Scholar

[12] Razieh Jalal, Elaheh K. Goharshadi, Maryam Abareshi, Majid Moosavi, Materials Chemistry and Physics 121 (2010) 198–201

DOI: 10.1016/j.matchemphys.2010.01.020

Google Scholar

[13] J.A. Nicell and H. Wright, Enzyme and Microbial Technology, 1997, 21, 302-310.

Google Scholar

[14] F. N. H.-H. Jia, M.-J. Chen, H. Zhou, P. Wei, P.-K. Ouyang, J. Mol. Catal. B, 2006, 43, 74-79.

Google Scholar

[15] Y.-F. L. Y.-X. Bai, M.-T. Wang,, Enzyme Microb. Technol, 2006, 39, 540-547.

Google Scholar

[16] NAKAMOT O S, M ACH IDA N. [ J] . Water R esearch, 1992,26( 1) : 49-54.

Google Scholar