Graphene–carbon 2D heterostructures with hierarchically-porous P,N-doped layered architecture for capacitive deionization
Jingru Guo, Xingtao Xu, Jonathan P. Hill, Liping Wang, Jingjing Dang, Yunqing Kang, Yuliang Li, Weisheng Guan, Yusuke Yamauchi
Abstract
NaCl solution at 1.2 V over 30 min with good cycling stability over 50 cycles. The excellent performance is attributed to the high specific surface area, high conductivity, favorable meso-/microporous structure together with nitrogen and phosphorus heteroatom co-doping, all of which are beneficial for the accommodation of ions and charge transport during the CDI process. More importantly, NPC/rGO exhibits a state-of-the-art CDI performance compared to the commercial benchmark and most of the previously reported carbon materials, highlighting the significance of the MOF nanoparticle-driven assembly strategy and graphene-carbon 2D heterostructures for CDI applications.