Online Published on 28 September, 2023.
A group of hybrid inorganic and organic linkers that are all tightly coupled to metal ions make up the metal organic framework class of supramolecular solid materials. This class of compounds has attracted a lot of interest due to its larger surface area, variable pore size advantage, and diverse and attractive structure. The following review article has examined structural characteristics, classification, synthesis methods, numerous factors impacting synthesis and stability, properties, and applications. The discipline has recently made strides, and new research initiatives have been developed to investigate the potential uses and scope of MOFs. Super-capacitors and rechargeable batteries with high energy densities have shown a lot of interest in metal-organic frameworks (MOFs). This paper outlines their expanding diversity, chemical compositions, and molecularly-tunable structural variations. Additionally, it attempts to assess how their naturally porous structure affects electrical and ionic transportation during lithium-ion battery charging and discharging cycles. We have outlined the several synthesis routes used to create a specific metal-organic framework in this review. The utilization of viable anode and cathode materials for lithium-particle batteries (LIBs) made of metal-natural structures is generally examined in this paper, alongside an assessment of their impacts on cycle steadiness and release limit.
Metal Organic Framework, Coordination polymers, Synthesis, Application in Batteries