Crystalline Porous Materials
Crystalline permeable materials are a developing research area in the realm of proton-directing materials that include coordination polymers (CPs), polyoxometalates (POMs), covalent natural systems (COFs), and metal-natural structures (MOFs). Among them are two notable groups that are improving and developing crystalline permeable materials: covalent-natural systems (COFs) and metal-natural structures (MOFs). These materials are distinguished by their extraordinary porosity, dazzling auxiliary thickness, and flexible utilitarian validity at the subatomic level, which finds application in batteries, supercapacitors, and electrochemical vitality storing gadgets. The crystallinity of materials provides soundness for electrochemical treatment, while porosity (high surface zone) aids in the distribution of electrolytes and particle flexibility.
- polyoxometalates
- Proton conductors
- Zeolites
- Porous materials
- Coordinating polymers
- Polyoxometalates
- Lithium and lithium-sulfur batteries
- Energy device applications
- Capacitors