Waste biomass derived highly-porous carbon material for toxic metal removal: Optimisation, mechanisms and environmental implications

Engineering

• Removal Efficiency 100%
• Kinetic Model 100%
• Initial Concentration 100%
• Contact Time 100%
• Porosity 100%
• Metal Removal 100%
• Conducted Experiment 50%
• Equilibrium Data 50%
• Aqueous Medium 50%
• Elemental Composition 50%
• Adsorption Capacity 50%
• Effective Solution 50%
• Activated Carbon 50%
• Optimal Condition 50%
• Kinetic Study 50%
• Box-Behnken Design 50%
• Energy dispersive spectrometry 50%

Material Science

• Energy-Dispersive X-Ray Spectroscopy 100%
• Surface (Surface Science) 100%
• Desorption 100%
• Scanning Electron Microscopy 100%
• Kinetic Order 100%
• Activated Charcoal 100%
• Activated Carbon 100%
• Porous Carbon 100%

Chemical Engineering

• Isotherm Models 100%
• Chemical Kinetics Characteristics 100%
• Toxic Metal Removal 100%
• Activated Carbon 50%
• Kinetic Study 50%
• Chemical Element 50%
• Adsorption Equilibrium 50%
• Maximum Adsorption Capacity 50%
• Desorption Experiment 50%
• Dubinin-Radushkevich Isotherm 50%
• Pseudo-first-order Kinetics 50%