Biomimetic composite scaffolds based on mineralization of hydroxyapatite on electrospun poly(ε-caprolactone)/nanocellulose fibers

Carbohydrate Polymers

Volumn 143, Issue , 2016, Pages 270-278

  Si, Junhui ^a,b   Cui, Zhixiang ^b,c   Wang, Qianting ^b   Liu, Qiong ^b   Liu, Chuntai ^a  

^a ZHENGZHOU UNIVERSITY   (China)

^b FUJIAN UNIVERSITY OF TECHNOLOGY   (China)

^c National Center for International Research of Micro nano Molding Technology   (China)

Author keywords

Electrospinning; Hydroxyapatite; Mineralization; Poly( caprolactone) nanocellulose; Scaffolds

Indexed keywords

BIOMIMETICS; CHEMICAL MODIFICATION; CRYSTALLINE MATERIALS; ELECTROSPINNING; FIBERS; HYDROXYAPATITE; SCAFFOLDS;

BIOMIMETIC COMPOSITES; BIOMIMETIC NANOCOMPOSITES; CAPROLACTONE; EFFECTIVE APPROACHES; MINERALIZATION; POLY (EPSILONCAPROLACTONE); SIMULATED BODY FLUIDS; WATER CONTACT ANGLE (WCA);

MINERALOGY;

BIOMIMETIC MATERIAL; CELLULOSE; HYDROXYAPATITE; POLYCAPROLACTONE; POLYESTER;

CHEMICAL PHENOMENA; CHEMISTRY; ELECTRIC CONDUCTIVITY; ELECTROCHEMICAL ANALYSIS; INFRARED SPECTROSCOPY; TENSILE STRENGTH; WETTABILITY; YOUNG MODULUS;

BIOMIMETIC MATERIALS; CELLULOSE; ELASTIC MODULUS; ELECTRIC CONDUCTIVITY; ELECTROCHEMICAL TECHNIQUES; HYDROPHOBIC AND HYDROPHILIC INTERACTIONS; HYDROXYAPATITES; POLYESTERS; SPECTROSCOPY, FOURIER TRANSFORM INFRARED; TENSILE STRENGTH; WETTABILITY;

EID: 84958967827     PISSN: 01448617     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbpol.2016.02.015     Document Type: Article

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