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Enzyme and Microbial Technology

Volumn 86, Issue , 2016, Pages 134-142

Synthesis of urease hybrid nanoflowers and their enhanced catalytic properties

(6) Somturk, Burcu a Yilmaz, Ismail a Altinkaynak, Cevahir a Karatepe, Aslihan b Özdemir, Nalan a Ocsoy, Ismail a

a ERCIYES UNIVERSITY (Turkey)

b NEVSEHIR HACI BEKTAS VELI UNIVERSITY (Turkey)

Author keywords

Copper ions; Enzymatic activity; Flower shape; Hybrid nanomaterials; Urea; Urease

Indexed keywords

ENZYME IMMOBILIZATION; METAL IONS; MORPHOLOGY; NANOFLOWERS; NANOSTRUCTURED MATERIALS; STABILITY; UREA;

COPPER IONS; ENZYMATIC ACTIVITIES; FLOWER SHAPE; HYBRID NANOMATERIALS; UREASE;

CATALYST ACTIVITY;

COPPER ION; HYBRID NANOFLOWER; NANOMATERIAL; UNCLASSIFIED DRUG; UREASE; COPPER; IMMOBILIZED ENZYME; UREA;

ARTICLE; CONFORMATION; ENZYME ACTIVITY; MOLECULAR STABILITY; MORPHOLOGY; NANOCATALYSIS; NANOCATALYST; NANOFABRICATION; PARTICLE SIZE; PH; SCANNING ELECTRON MICROSCOPY; STORAGE TEMPERATURE; STORAGE TIME; SURFACE AREA; TIME; CATALYSIS; CHEMISTRY; ENZYME STABILITY; HUMAN; KINETICS; METABOLISM; NANOTECHNOLOGY; ULTRASTRUCTURE;

CATALYSIS; COPPER; ENZYME STABILITY; ENZYMES, IMMOBILIZED; HUMANS; KINETICS; MICROSCOPY, ELECTRON, SCANNING; NANOSTRUCTURES; NANOTECHNOLOGY; UREA; UREASE;

EID: 84977747146 PISSN: 01410229 EISSN: 18790909 Source Type: Journal
DOI: 10.1016/j.enzmictec.2015.09.005 Document Type: Article

Times cited : (119)

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