A mini review on metal-organic framework-based electrode materials for capacitive deionization
Capacitive deionization (CDI) is an electrochemical method of extracting ions from solution
at potentials below electrolysis. It has various applications ranging from water remediation …
at potentials below electrolysis. It has various applications ranging from water remediation …
Engineering strategies toward electrodes stabilization in capacitive deionization
M Gao, W Chen - Coordination Chemistry Reviews, 2024 - Elsevier
Capacitive deionization (CDI), an emerging desalination technique, harnesses porous
carbon electrodes to eliminate ions via electrosorption. Despite its promise, CDI systems …
carbon electrodes to eliminate ions via electrosorption. Despite its promise, CDI systems …
Heterointerface optimization in a covalent organic framework-on-MXene for high-performance capacitive deionization of oxygenated saline water
Capacitive deionization (CDI) provides a promising option for affordable freshwater while
simultaneously storing energy, but its large-scale application is usually limited owing to the …
simultaneously storing energy, but its large-scale application is usually limited owing to the …
[HTML][HTML] Graphene–carbon 2D heterostructures with hierarchically-porous P, N-doped layered architecture for capacitive deionization
Exploring a new-family of carbon-based desalinators to optimize their performances beyond
the current commercial benchmark is of significance for the development of practically useful …
the current commercial benchmark is of significance for the development of practically useful …
Nanoarchitectonics from 2D to 3D: MXenes-derived nitrogen-doped 3D nanofibrous architecture for extraordinarily-fast capacitive deionization
Abstract Two-dimensional (2D) nanosheets are promising electrode materials for
electrochemical desalination by capacitive deionization (CDI). Like most 2D nanosheets, the …
electrochemical desalination by capacitive deionization (CDI). Like most 2D nanosheets, the …
A reverse‐defect‐engineering strategy toward high edge‐nitrogen‐doped nanotube‐like carbon for high‐capacity and stable sodium ion capture
Developing high‐performance defect‐rich carbon materials with abundant accessible active
sites is exceedingly vital for electrochemical water desalination, but this still remains a …
sites is exceedingly vital for electrochemical water desalination, but this still remains a …
Carbon-incorporated Fe 3 O 4 nanoflakes: high-performance faradaic materials for hybrid capacitive deionization and supercapacitors
Here, we introduce a new strategy using urea for the synthesis of carbon-incorporated 2D
Fe3O4 (2D-Fe3O4/C) nanoflakes under solvothermal conditions with the following pyrolysis …
Fe3O4 (2D-Fe3O4/C) nanoflakes under solvothermal conditions with the following pyrolysis …
Core–shell MOF@ COF motif hybridization: selectively functionalized precursors for titanium dioxide nanoparticle-embedded nitrogen-rich carbon architectures with …
Metal–organic frameworks (MOFs) and covalent–organic frameworks (COFs) are promising
precursors for preparing high-performance carbonaceous materials for capacitive …
precursors for preparing high-performance carbonaceous materials for capacitive …
Nitrogen, phosphorus co-doped eave-like hierarchical porous carbon for efficient capacitive deionization
Carbon-based electrodes play important roles in constructing efficient capacitive
deionization (CDI) devices. Therefore, the rational design of carbon materials with optimized …
deionization (CDI) devices. Therefore, the rational design of carbon materials with optimized …
Co@ N-doped double-shell hollow carbon via self-templating-polymerization strategy for microwave absorption
L Xu, J Tao, X Zhang, Z Yao, A Zavabeti, J Zhou - Carbon, 2022 - Elsevier
Metal-organic frameworks (MOFs) derivatives have been widely explored as highly efficient
electromagnetic absorbing materials. Due to their diverse coordination arrangements …
electromagnetic absorbing materials. Due to their diverse coordination arrangements …