Cellulase immobilized by sol-gel entrapment for efficient hydrolysis of cellulose

Bioprocess and Biosystems Engineering

Volumn 36, Issue 10, 2013, Pages 1327-1338

  Ungurean, Mihaela ^a   Paul, Cristina ^a   Peter, Francisc ^a  

^a POLITEHNICA UNIVERSITY OF TIMISOARA   (Romania)

Author keywords

Avicel; Cellulase; Cellulose hydrolysis; Sol gel immobilization; Stability

Indexed keywords

AVICEL; CELLULASE; CELLULOSE HYDROLYSIS; IMMOBILIZATION CONDITIONS; LARGE-SCALE APPLICATIONS; METHYLTRIMETHOXYSILANE; MICRO-CRYSTALLINE CELLULOSE; SOL-GEL IMMOBILIZATION;

CELLULOSE; CONVERGENCE OF NUMERICAL METHODS; HYDROLYSIS; SOL-GEL PROCESS;

SOL-GELS;

CELLULASE; GLUCOSE; MICROCRYSTALLINE CELLULOSE; TETRAMETHOXYSILANE; TRIMETHOXYMETHYLSILANE;

ARTICLE; BIOCATALYST; CONTROLLED STUDY; ENCAPSULATION; ENZYME ACTIVITY; ENZYME IMMOBILIZATION; HIGH TEMPERATURE; HYDROLYSIS; HYPOCREA JECORINA; LOW TEMPERATURE; NONHUMAN; PARAMETERS; PH; PRECURSOR; PRIORITY JOURNAL; PROCESS OPTIMIZATION; SOL GEL ENTRAPMENT;

CELLULASE; CELLULOSE; ENZYME STABILITY; ENZYMES, IMMOBILIZED; GELS; HYDROGEN-ION CONCENTRATION; HYDROLYSIS; KINETICS; SUBSTRATE SPECIFICITY; TEMPERATURE; TRICHODERMA;

EID: 84872843493     PISSN: 16157591     EISSN: 16157605     Source Type: Journal    
DOI: 10.1007/s00449-012-0835-9     Document Type: Article

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