|
Volumn 130, Issue , 2015, Pages 222-228
|
Effect of negatively charged cellulose nanofibers on the dispersion of hydroxyapatite nanoparticles for scaffolds in bone tissue engineering
|
Author keywords
Bacterial cellulose; Colloidal stability; Dispersant; Hydroxyapatite; Scaffold
|
Indexed keywords
BONE;
CELL ENGINEERING;
CELL PROLIFERATION;
CELLULOSE;
CHEMICAL MODIFICATION;
CHEMICAL STABILITY;
CROSSLINKING;
ELASTIC MODULI;
HYDROXYAPATITE;
NANOFIBERS;
NANOPARTICLES;
SCAFFOLDS;
TENSILE STRESS;
TISSUE;
TISSUE ENGINEERING;
2 ,2 ,6 ,6-TETRAMETHYLPIPERIDINE-1-OXYL;
BACTERIAL CELLULOSE;
BONE TISSUE ENGINEERING;
CELL DIFFERENTIATION;
COLLOIDAL STABILITY;
DISPERSANTS;
DISPERSION SOLUTIONS;
HYDROXYAPATITE NANOPARTICLES;
SCAFFOLDS (BIOLOGY);
CELLULOSE;
HYDROXYAPATITE;
NANOFIBER;
NANOPARTICLE;
TEMPOL;
AMINE OXIDE;
BIOMATERIAL;
HYDROGEL;
TEMPO;
ANIMAL CELL;
ARTICLE;
BIOSYNTHESIS;
BONE TISSUE;
CELL DIFFERENTIATION;
CELL PROLIFERATION;
CELL VIABILITY;
CHEMICAL MODIFICATION;
CONTROLLED STUDY;
CROSS LINKING;
DISPERSION;
MOLECULAR STABILITY;
NEWBORN;
NONHUMAN;
OSTEOBLAST;
PH;
PHYSICAL CHEMISTRY;
PHYSICAL PARAMETERS;
PRIORITY JOURNAL;
RAT;
TEMPERATURE;
TENSILE STRENGTH;
TISSUE ENGINEERING;
TISSUE SCAFFOLD;
ADSORPTION;
ANIMAL;
BONE;
BONE DEVELOPMENT;
CHEMISTRY;
CYTOLOGY;
DRUG EFFECTS;
HYDROGEL;
PHYSIOLOGY;
POROSITY;
PROCEDURES;
SCANNING ELECTRON MICROSCOPY;
SPRAGUE DAWLEY RAT;
TRANSMISSION ELECTRON MICROSCOPY;
ULTRASTRUCTURE;
YOUNG MODULUS;
BACTERIA (MICROORGANISMS);
ADSORPTION;
ANIMALS;
ANIMALS, NEWBORN;
BIOCOMPATIBLE MATERIALS;
BONE AND BONES;
CELL PROLIFERATION;
CELLULOSE;
CYCLIC N-OXIDES;
DURAPATITE;
ELASTIC MODULUS;
HYDROGELS;
MICROSCOPY, ELECTRON, SCANNING;
MICROSCOPY, ELECTRON, TRANSMISSION;
NANOFIBERS;
NANOPARTICLES;
OSTEOBLASTS;
OSTEOGENESIS;
POROSITY;
RATS, SPRAGUE-DAWLEY;
TENSILE STRENGTH;
TISSUE ENGINEERING;
TISSUE SCAFFOLDS;
|
EID: 84930182095
PISSN: 09277765
EISSN: 18734367
Source Type: Journal
DOI: 10.1016/j.colsurfb.2015.04.014 Document Type: Article |
Times cited : (76)
|
References (22)
|