Design, Synthesis and Adsorption Evaluation of Bio-Based Lignin/Chitosan Beads for Congo Red Removal

The morphology and intermolecular interaction are two of the most important factors in the design of highly efficient dye adsorbent in the industry. Millimeter-sized, bead-type, bio-based lignin/chitosan (Lig/CS) adsorbent was designed for the removal of Congo red (CR), based on the electrostatic attraction, pi-pi stacking, and hydrogen bonding, which were synthesized through the emulsification of the chitosan/lignin mixture followed by chemical cross-linking. The effects of the lignin/chitosan mass ratio, initial pH, temperature, concentration, and contact time on the adsorption were thoroughly investigated. The highest adsorption capacity (173 mg/g) was obtained for the 20 wt% Lig/CS beads, with a removal rate of 86.5%. To investigate the adsorption mechanism and recyclability, an evaluation of the kinetic model and an adsorption/desorption experiment were conducted. The adsorption of CR on Lig/CS beads followed the type 1 pseudo-second-order model, and the removal rate for CR was still above 90% at five cycles.

Automated summary

Morphology and intermolecular interaction are important factors in the design of efficient dye adsorbents. In this study, millimeter-sized bead-type adsorbents based on lignin/chitosan were designed for the removal of Congo red. The adsorbents showed high adsorption capacity and removal rate due to electrostatic attraction, pi-pi stacking, and hydrogen bonding. The results also showed that the 20 wt% Lig/CS beads had the highest adsorption capacity and removal rate, and the adsorbents exhibited good recyclability.