MOFs have generated a great deal of interest in recent years for potential applications in gas storage,separation,sensor devices,biomedicine and catalysis.
Supramolecular chemistry and crystal engineering are active fields in chemistry due to the novel topologies and potential applications in host-guest chemistry,catalysis,and electrical conductivity [1,
Metal-Organic Frameworks(MOFs),promising porous materials generally constructed from rigid organic linker and metal/metal cluster,have been extremely studied as potential anode,cathode,and electrolyte
In situ fabrication of graphenescaffold-ZrO2nanofilmson SiO2 substrates is achieved by spin coating and thermal annealing of Zr-based metal-organic oligomers [1].
A primary capacity of 9420 mA h g-1 under 1 atm of oxygen was achieved in a Li-O2 battery based on the robust Mn-MOF-74,more than four times higher than the value obtained in a cell without an MOF.
The control of the Ru(Ⅲ/Ⅱ)redox potential is critical in many optoelectronic applications,which can be achieved by changing the electronic nature of auxiliary ligands [1].