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Volumn 138, Issue , 2016, Pages 41-49
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Boron nitride nanotubes included thermally cross-linked gelatin-glucose scaffolds show improved properties
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Author keywords
BNNT OH; Boron nitride nanotubes; Cell proliferation; Gelatin; Mechanical strength; Scaffold
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Indexed keywords
BIOCOMPATIBILITY;
BORON NITRIDE;
CELL CULTURE;
CELL PROLIFERATION;
CELLS;
DEGRADATION;
GLUCOSE;
III-V SEMICONDUCTORS;
MEDICAL APPLICATIONS;
NANOTUBES;
NITRIDES;
SCAFFOLDS;
STRENGTH OF MATERIALS;
THERMAL INSULATION;
YARN;
BIOMEDICAL APPLICATIONS;
BNNT-OH;
BORON NITRIDE NANOTUBES;
BORON NITRIDE NANOTUBES (BNNTS);
ELECTROSPINNING TECHNIQUES;
GELATIN;
HUMAN DERMAL FIBROBLASTS;
TISSUE ENGINEERING APPLICATIONS;
SCAFFOLDS (BIOLOGY);
BORON NITRIDE NANOTUBE;
COLLAGENASE;
GELATIN GLUCOSE SCAFFOLD;
MOLECULAR SCAFFOLD;
TRYPSIN;
UNCLASSIFIED DRUG;
BIOMATERIAL;
BORON DERIVATIVE;
BORON NITRIDE;
GELATIN;
GLUCOSE;
NANOTUBE;
ARTICLE;
BIOCOMPATIBILITY;
BIODEGRADABILITY;
CELL ADHESION;
CELL PROLIFERATION;
CELL VIABILITY;
COMPLEX FORMATION;
CONTACT ANGLE;
CONTROLLED STUDY;
CROSS LINKING;
CYTOTOXICITY TEST;
DEGRADATION;
ELECTROSPINNING;
ENZYME STABILITY;
FLUORESCENCE MICROSCOPY;
HUMAN;
HUMAN CELL;
HYDROPHOBICITY;
PRIORITY JOURNAL;
SCANNING ELECTRON MICROSCOPY;
TENSILE STRENGTH;
CELL CULTURE;
CELL SURVIVAL;
CHEMISTRY;
DRUG EFFECTS;
ELECTROCHEMICAL ANALYSIS;
HEAT;
INFRARED SPECTROSCOPY;
MECHANICS;
METABOLISM;
PROCEDURES;
TISSUE ENGINEERING;
TISSUE SCAFFOLD;
TRANSMISSION ELECTRON MICROSCOPY;
ULTRASTRUCTURE;
BIOCOMPATIBLE MATERIALS;
BORON COMPOUNDS;
CELL ADHESION;
CELL PROLIFERATION;
CELL SURVIVAL;
CELLS, CULTURED;
ELECTROCHEMICAL TECHNIQUES;
GELATIN;
GLUCOSE;
HOT TEMPERATURE;
HUMANS;
MECHANICAL PHENOMENA;
MICROSCOPY, ELECTRON, SCANNING;
MICROSCOPY, ELECTRON, TRANSMISSION;
MICROSCOPY, FLUORESCENCE;
NANOTUBES;
SPECTROSCOPY, FOURIER TRANSFORM INFRARED;
TISSUE ENGINEERING;
TISSUE SCAFFOLDS;
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EID: 84948807854
PISSN: 09277765
EISSN: 18734367
Source Type: Journal
DOI: 10.1016/j.colsurfb.2015.11.036 Document Type: Article |
Times cited : (36)
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References (26)
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