Extraction and Characterization of Micro-fibrillated Cellulose from Rice Husk Waste for Biomedical Purposes

Keyphrases

• Rice Husk Waste 100%
• Microfibrillated Cellulose 100%
• Biomedical Purposes 100%
• Mechanical Treatment 83%
• Rice Husk 33%
• Chemical Treatment 33%
• Alkalization 33%
• Fourier Transform Infrared Spectroscopy (FT-IR) 16%
• X Ray Diffraction 16%
• Hemicellulose 16%
• Lignin 16%
• Silica 16%
• Scanning Electron Microscope 16%
• Hydrogen Bonds (H-bonds) 16%
• Chemical Structure 16%
• Crystallinity Index 16%
• Amorphous Phase 16%
• Monoclinic 16%
• Morphological Structure 16%
• I to 16%
• Triclinic 16%
• Crystallinity 16%
• Biomedical Applications 16%
• Water Retention 16%
• Hydrolysis Treatment 16%
• Chemically Treated 16%
• Comprehensive Evaluation 16%
• Void Size 16%
• Fibrillation 16%
• Bleaching Chemicals 16%
• Chemical Hydrolysis 16%
• Negatively Charged Surface 16%
• Cellulose Crystals 16%

Material Science

• Fourier Transform Infrared Spectroscopy 100%
• X-Ray Diffraction 100%
• Scanning Electron Microscopy 100%
• Lignin 100%
• Silicon Dioxide 100%
• Structure (Composition) 100%
• Hydrogen Bonding 100%
• Surface (Surface Science) 100%
• Enzymatic Hydrolysis 100%

Engineering

• Rice Husk 100%
• Mechanical Treatment 100%
• Crystallinity 40%
• Ray Diffraction 20%
• Chemical Structure 20%
• Monoclinic 20%
• Biomedical Application 20%
• Hemicellulose 20%
• Amorphous Phase 20%
• Chemical Treatment 20%
• Negatively Charged Surface 20%
• Silicon Dioxide 20%
• FTIR Spectroscopy 20%
• Scanning Electron Microscope 20%