Laccase-modified silica nanoparticles efficiently catalyze the transformation of phenolic compounds

Journal of Colloid and Interface Science

Volumn 349, Issue 1, 2010, Pages 98-105

  Galliker, Patrick ^a   Hommes, Gregor ^a   Schlosser, Dietmar ^b   Corvini, Philippe F X ^a   Shahgaldian, Patrick ^a  

^a UNIVERSITY OF APPLIED SCIENCES AND ARTS NORTHWESTERN SWITZERLAND   (Switzerland)

^b HELMHOLTZ CENTRE FOR ENVIRONMENTAL RESEARCH UFZ   (Germany)

Author keywords

Bisphenol A; Endocrine disrupting chemical; Laccase; Nanoparticle; Radioactivity; Silica

Indexed keywords

ANALYTICAL METHOD; BISPHENOL A; BISPHENOLS; CATALYTIC ACTIVITY; ENDOCRINE DISRUPTING CHEMICALS; ENZYMATIC ACTIVITIES; ENZYMATIC REACTION; GLUTARALDEHYDES; IMMOBILIZED ENZYME; LACCASE; LACCASES; MODIFIED SILICA; NEW SYSTEM; OXIDATIVE ACTIVITY; PHENOLIC COMPOUNDS; PHENOLIC POLLUTANTS; POTENTIAL MEASUREMENTS; PRIMARY AMINO GROUPS; RELIABLE STUDIES; TRANSFORMATION PRODUCTS;

ALDEHYDES; CHEMICALS; COUPLING AGENTS; ENZYME ACTIVITY; GAS CHROMATOGRAPHY; HIGH PERFORMANCE LIQUID CHROMATOGRAPHY; MASS SPECTROMETRY; PHENOLS; RADIATION; RADIOACTIVITY; SCANNING ELECTRON MICROSCOPY; SILICA;

NANOPARTICLES;

4,4' ISOPROPYLIDENEDIPHENOL; CARBON 14; GLUTARALDEHYDE; LACCASE; NANOPARTICLE; PHENOL DERIVATIVE; SILICON DIOXIDE; SILICON DIOXIDE NANOPARTICLE; UNCLASSIFIED DRUG; ENDOCRINE DISRUPTOR; FUNGAL PROTEIN; IMMOBILIZED ENZYME;

ARTICLE; BIOTRANSFORMATION; CATALYSIS; CHEMICAL ANALYSIS; CHEMICAL COMPOSITION; CONJUGATION; ENZYME ACTIVITY; ENZYME IMMOBILIZATION; HIGH PERFORMANCE LIQUID CHROMATOGRAPHY; LIGHT SCATTERING; MASS FRAGMENTOGRAPHY; OXIDATION; PRIORITY JOURNAL; RELIABILITY; SCANNING ELECTRON MICROSCOPY; SURFACE PROPERTY; SYNTHESIS; ZETA POTENTIAL; CHEMISTRY; METABOLISM; ULTRASTRUCTURE;

CATALYSIS; ENDOCRINE DISRUPTORS; ENZYMES, IMMOBILIZED; FUNGAL PROTEINS; LACCASE; NANOPARTICLES; PHENOLS; SILICON DIOXIDE;

EID: 77954176467     PISSN: 00219797     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jcis.2010.05.031     Document Type: Article

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