Research Progress of Carbon Materials Derived from the Zn-Based Metal-Organic Frameworks in Capacitive Deionization

Abstract: The scarcity of fresh water resource has become one of the top concerns of modern society. Various water treatment technologies have been developed for the reuse of seawater and capacitive deionization (CDI) holds superior advantages as a promising electrosorption desalination technology. Since electrode material is the key factor in controlling the performance of CDI, recent years have witnessed considerable research progress in the rational design and fabrication of Zn-based MOF-derived carbon materials appl… Show more

“…[30] In addition, the pyrolysis of Zn-based MOFs can directly generate metal-free N-doped carbon materials due to the evaporation of Zn metal. [31] However, the synthesis of MOFs as precursors on a large scale remains challenging due to their multi-step synthetic procedures and low yields. [32] Additionally, the pyrolysis of MOFs is a "top-down" strategy.…”

Tailoring C─N Containing Compounds into Carbon Nanomaterials with Tunable Morphologies for Electrocatalytic Applications

“…[30] In addition, the pyrolysis of Zn-based MOFs can directly generate metal-free N-doped carbon materials due to the evaporation of Zn metal. [31] However, the synthesis of MOFs as precursors on a large scale remains challenging due to their multi-step synthetic procedures and low yields. [32] Additionally, the pyrolysis of MOFs is a "top-down" strategy.…”

Tailoring C─N Containing Compounds into Carbon Nanomaterials with Tunable Morphologies for Electrocatalytic Applications

Integrating battery and capacitive materials for efficient sodium and chloride capture

Heterostructure of NiCoAl-layered double hydroxide nanosheet arrays assembled on MXene coupled with CNT as conductive bridge for enhanced capacitive deionization