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Journal of Molecular Catalysis B: Enzymatic

Volumn 66, Issue 1-2, 2010, Pages 182-189

Pore size of macroporous polystyrene microspheres affects lipase immobilization

(6) Li, Yan a,b Gao, Fei a Wei, Wei a,b Qu, Jian Bo a Ma, Guang Hui a Zhou, Wei Qing a

a INSTITUTE OF PROCESS ENGINEERING (China)

b UNIVERSITY OF CHINESE ACADEMY OF SCIENCES (China)

Author keywords

Burkholderia cepacia lipase; Gigaporous polystyrene microspheres; Immobilization; Macroporous polystyrene microspheres; Pore size

Indexed keywords

BURKHOLDERIA CEPACIA; BURKHOLDERIA CEPACIA LIPASE; ENZYME ACTIVE SITES; ENZYME SUPPORTS; GIGAPOROUS POLYSTYRENE MICROSPHERES; HYDROPHOBIC INTERACTIONS; IMMOBILIZATION; IMMOBILIZE LIPASE; IMMOBILIZED LIPASE; KINETIC BEHAVIOR; KINETIC CONSTANT; LARGE PORE SIZE; LASER SCANNING CONFOCAL MICROSCOPES; LIPASE IMMOBILIZATION; MACROPORES; MACROPOROUS; MECHANICAL STRENGTH; MESOPOROUS; NOVEL METHODS; POLYSTYRENE MICRO-SPHERE; POROUS MICROSPHERES; REAL SYSTEMS; RELATIVE ACTIVITIES; STORAGE STABILITY; THERMAL STABILITY;

CHEMICAL STABILITY; ENZYMES; HYDROPHOBICITY; POLYSTYRENES; PORE SIZE; REUSABILITY; THERMODYNAMIC STABILITY;

MICROSPHERES;

MICROSPHERE; POLYSTYRENE; TRIACYLGLYCEROL LIPASE;

ARTICLE; BURKHOLDERIA CEPACIA; CONFOCAL LASER MICROSCOPY; CONTROLLED STUDY; ENZYME ACTIVE SITE; ENZYME ASSAY; ENZYME IMMOBILIZATION; ENZYME KINETICS; NONHUMAN; RECYCLING; SCANNING ELECTRON MICROSCOPY; STORAGE; THERMOSTABILITY;

BURKHOLDERIA CEPACIA;

EID: 77957856686 PISSN: 13811177 EISSN: None Source Type: Journal
DOI: 10.1016/j.molcatb.2010.05.007 Document Type: Article

Times cited : (154)

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