Due
to the increasingly serious energy consumption and demand worldwide,
the development of advanced, flexible, and versatile advanced batteries
and related materials has become an important research topic in the
modern world. Copper-based metal–organic frameworks (Cu-MOFs)
have large specific surface areas, high porosities, adjustable structures,
simple preparation methods, and low cost. In recent years, the research
on the chemical composition, structure, preparation methods, and application
of Cu-MOFs and their derivatives has undergone continuous changes
and growth, resulting in excellent candidate materials for electrochemical
energy storage. Herein, this article reviews the application status
and development of Cu-MOFs and their derivative materials in various
rechargeable batteries, including lithium-ion batteries, sodium-ion
batteries, lithium–sulfur batteries, and other rechargeable
batteries. First, we have summarized and compared the synthesis methods
of Cu-MOFs, then the research progress in the synthesis strategy,
structure, and electrochemical performance of Cu-MOFs and their derivative
materials is emphasized. Finally, a comprehensive summary of the research
results of the applications of Cu-MOFs and their derivatives in the
field of advanced batteries is given in order to provide various ideas
and suggestions for their further development.
Due to the rapid energy consumption and environmental pollution, it has become necessary to develop rechargeable batteries with better electrochemical performance, especially when the traditional rechargeable battery is hard to...
A feasible synthetic method is proposed for the construction of ZnMnO3/C derived from a bimetallic metal–organic framework as a versatile anode material towards lithium storage.
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