With the rapid development of science and technology and for a sustainable future, the main energy resources in the world are transitioning from fossil fuels to electricity which is conceived to play a predominant role in the future. Therefore, it is essential to develop high-performance energy-storage devices such as supercapacitors and rechargeable batteries
even though they are commercialized, intense research efforts are still devoted to further improve the device performances, e.g. energy density, safety, durability and the charging rate. In this respect, exploring new advanced materials for better devices is a promising approach. The recently emerged two-dimensional conductive metal-organic frameworks (2D c-MOFs) with their inherent electrical conductivities and porosity, rich redox active sites and tailor-made architectures and functions have attracted considerable attention among energy-storage community. The initial research results reveal 2D c-MOFs are superb and advantageous electrode materials for advanced energy storage.