Mechanism of arsenic removal using chitosan and nanochitosan

Keyphrases

• Chitosan 100%
• Nanochitosan 100%
• Arsenic Removal Mechanism 100%
• Arsenic Ions 42%
• Sorption Kinetics 28%
• Glucosamine 28%
• Arsenate 28%
• Physical Properties 14%
• Surface Properties 14%
• Hydroxyl Group 14%
• Chemical Properties 14%
• Structural Properties 14%
• Kinetic Study 14%
• Primary Amines 14%
• Crystallinity 14%
• Amine Group 14%
• Copolymer 14%
• Solution pH 14%
• Adsorption Capacity 14%
• Pseudo-first-order Kinetic Model 14%
• Desorption 14%
• Adsorption-desorption 14%
• PH Effect 14%
• Anionic Species 14%
• Surface Charge 14%
• Adsorption Mechanism 14%
• High Adsorption 14%
• Equilibrium Sorption 14%
• Batch Kinetics 14%
• Amine Functional Groups 14%
• Swelling Properties 14%
• Protonated Amine 14%
• Uptake Capacity 14%
• Natural Polysaccharides 14%
• Uptake Kinetics 14%
• Degree of Deacetylation 14%
• Polycationic 14%
• N-acetylglucosamine 14%
• Sorption Equilibrium 14%
• Rapid Adsorption 14%
• Free Hydroxyl 14%
• Newly Reported 14%
• Chitosan Flakes 14%

Chemical Engineering

• Chitosan 100%
• Glucosamine 37%
• Desorption 12%
• Copolymer 12%
• Kinetic Study 12%
• Functional Group 12%
• Chemical Kinetics Characteristics 12%
• Polysaccharide 12%
• High Adsorption 12%
• Solution pH 12%
• Pseudo-first-order Kinetics 12%