Enhanced stability of catalase covalently immobilized on functionalized titania submicrospheres

Materials Science and Engineering C

Volumn 33, Issue 3, 2013, Pages 1438-1445

  Wu, Hong ^a   Liang, Yanpeng ^a   Shi, Jiafu ^a   Wang, Xiaoli ^a   Yang, Dong ^a   Jiang, Zhongyi ^a  

^a TIANJIN UNIVERSITY   (China)

Author keywords

Biocatalysis; Covalent binding; Immobilized enzyme; Kinetic parameters; Stability; Titania

Indexed keywords

AMBIENT CONDITIONS; BIOCATALYSIS; CARBODIIMIDE HYDROCHLORIDES; CARBOXYLIC ACID GROUPS; CHELATING AGENT; COUPLING REACTION; COVALENT BINDING; ENHANCED STABILITY; ENZYME STABILITY; FREEFORMS; FUNCTIONALIZED; IMMOBILIZED ENZYME; INITIAL ACTIVITY; LOADING CAPACITIES; MODIFIED SOL-GEL METHOD; PH STABILITY; PROPIONIC ACIDS; STORAGE STABILITY; SUBMICROSPHERES; TITANIA; TITANIA SURFACES;

CARBOXYLIC ACIDS; CHELATION; CONVERGENCE OF NUMERICAL METHODS; ENZYME IMMOBILIZATION; HYDROGEN PEROXIDE; KINETIC PARAMETERS; LOADING; SOL-GEL PROCESS; STABILITY;

TITANIUM DIOXIDE;

CATALASE; IMMOBILIZED ENZYME; MICROSPHERE; TITANIUM; TITANIUM DIOXIDE;

ANIMAL; BOVINAE; DRUG EFFECTS; ENZYME STABILITY; KINETICS; METABOLISM; PH; PROTEIN DENATURATION; RECYCLING; SPECTROMETRY; TEMPERATURE; ULTRASTRUCTURE; ARTICLE; BIOCATALYSIS; CATTLE; COVALENT BOND; DRUG EFFECT; KINETIC PARAMETERS; STABILITY;

ANIMALS; CATALASE; CATTLE; ENZYME STABILITY; ENZYMES, IMMOBILIZED; HYDROGEN-ION CONCENTRATION; KINETICS; MICROSPHERES; PROTEIN DENATURATION; RECYCLING; SPECTROMETRY, X-RAY EMISSION; TEMPERATURE; TITANIUM;

BIOCATALYSIS; COVALENT BINDING; IMMOBILIZED ENZYME; KINETIC PARAMETERS; STABILITY; TITANIA;

EID: 84873411955     PISSN: 09284931     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.msec.2012.12.048     Document Type: Article

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