N,P-Codoped Meso-/Microporous Carbon Derived from Biomass Materials via a Dual-Activation Strategy as High-Performance Electrodes for Deionization Capacitors

• Published in: ACS sustainable chemistry & engineering Vol. 5; no. 7; pp. 5810 - 5819
• Main Authors: Xu, Dong, Tong, Ying, Yan, Tingting, Shi, Liyi, Zhang, Dengsong
• Format: Journal Article
• Language: English
• Published: American Chemical Society 03.07.2017
• Subjects: Meso-/microporous carbon; Deionization capacitors; Biomass
• ISSN: 2168-0485; 2168-0485
• DOI: 10.1021/acssuschemeng.7b00551

Nitrogen and phosphorus codoped meso-/microporous carbon derived from biomass materials has been designed and successfully fabricated as high-performance electrodes for deionization capacitors. The obtained materials were prepared by the pyrolysis of pomelo peel via a dual-activation strategy by using NH4H2PO4 and KHCO3. It is interesting that the as prepared nitrogen and phosphorus codoped meso-/microporous carbon possesses a high specific surface area of 2726 m2 g–1 with high percentage of mesopores of 52%. It has been demonstrated that the obtained electrode shows high specific capacitance, low inner resistance and good wettability. Consequently, the obtained electrode exhibits good deionization performance in a 300–1000 mg L–1 NaCl solution at 1.0–1.4 V with a flow rate of 20–60 mL min–1. The electrode reveals an ultrahigh deionization capacity of 20.78 mg g–1 at 1.4 V in a 1000 mg L–1 NaCl solution. The regeneration performance of the obtained electrode is good. The good performance is ascribed to the high specific surface area, superior micro-/mesoporous structure, and N,P-codoping. Hence, the nitrogen and phosphorus codoped meso-/microporous carbon should be a promising candidate as electrode material for deionization capacitors. The present work paves a way for the development of multiheteroatom codoped meso-/microporous carbon materials for electrochemical applications.