Lignin-based adsorbent-catalyst with high capacity and stability for polychlorinated aromatics removal

The utilization of lignin as carbonaceous material for pollution adsorption provides an alternative way for lignocellulose valorization. Here in, lignin-based adsorbents (i.e., LC-A, LC-B, and LC-C) were prepared and used for the removal of o-DCB (a toxic gaseous pollutant). LC-B exhibited the best adsorption capacity (718.2 mg/g) when comparing with LC-A (93.1 mg/g), LC-C (10.2 mg/g), and activated carbon (72.7 mg/g). LC-B also demonstrated excellent recycling stability with the adsorption capacity of 710.8 mg/g after five runs. More importantly, LC-B supported Ru adsorbent catalyst could effectively remove o-DCB with removal rate >80% under a wide range of temperature (50-300 degrees C). The excellent performance of lignin-based adsorbents could be attributed to its abundant pore structure, high specific surface area (1618.55 m2/g), enhanced graphitization degree as well as the abundant hydroxyl functional groups. The present work provided a cost-effective strategy for pollution control by lignin-based material.

Automated summary

Utilizing lignin as carbonaceous material for pollution adsorption provides an alternative method for lignocellulose valorization. Among the lignin-based adsorbents, LC-B showed the best adsorption capacity for toxic gaseous pollutant removal and demonstrated excellent recycling stability. The excellent performance of lignin-based adsorbents is attributed to its abundant pore structure, high specific surface area, enhanced graphitization degree, and abundant hydroxyl functional groups.