Preparation of carbon foam from depolymerization-reforming lignin for capacitive deionization

The functionalized utilization of lignin is attracting more and more attention. In this paper, we report a 3D interconnected foamy carbon material with highly open pore structure. The carbon foam is synthesized by depolymerization reforming strategy. The foamy carbon has a deep internal pore channels and exhibits an enhanced electrosorption capacity. The highest desalination of the foamy carbon reaches 30.2 mg center dot g (-1) in 500 mg center dot L (-1) NaCl at 1.2 V with adsorption rate of 3.75 mg/g/min. Meanwhile, the optimal electrode PDLC-1 shows good regeneration capacity. Our work provides a usable way for the preparation of lignin-derived carbon foam with high-performance of capacitive deionization.

Automated summary

In this paper, a 3D interconnected foamy carbon material with highly open pore structure was synthesized using depolymerization reforming strategy. The foamy carbon exhibited a deep internal pore channels and an enhanced electrosorption capacity. The highest desalination of the foamy carbon reached 30.2 mg·g(-1) in 500 mg·L(-1) NaCl at 1.2 V with adsorption rate of 3.75 mg/g/min. Meanwhile, the optimal electrode PDLC-1 showed good regeneration capacity. This work provides a usable way for the preparation of lignin-derived carbon foam with high-performance of capacitive deionization.