ABSTRACT
The hydrogen energy system is important for generating hydrogen from renewable sources, storing large quantities, low volumes, and converting it to high-efficiency hydrogen energy. Metal-organic frameworks (MOFs) from nanomaterials for hydrogen production and storage are materials that cause a three-dimensional porous material. The MOFs have advantages such as structural diversity, functionality, and variability. The most important advantage of MOFs is that they are suitable for shaping the desired molecular cavities and have an excellent crystal structure. The functionalization of MOFs using various nanoparticles (NPs) is an effective way of enhancing the function of MOFs. This section discusses the synthesis, use, and performance of composite materials containing immobilized NPs for the production and storage of hydrogen by using NP@MOF.
