Metal boranes as energy materials. This project aims to develop cheaper and better performing energy storage solutions using metal boranes. New materials are needed to advance energy storage technologies. This project will design metal boranes and their derivatives to tackle energy storage as solid-state electrolytes for battery applications, and as thermochemical energy storage materials It will investigate the thermochemical energy storage properties of metal boranes for high temperature solar ....Metal boranes as energy materials. This project aims to develop cheaper and better performing energy storage solutions using metal boranes. New materials are needed to advance energy storage technologies. This project will design metal boranes and their derivatives to tackle energy storage as solid-state electrolytes for battery applications, and as thermochemical energy storage materials It will investigate the thermochemical energy storage properties of metal boranes for high temperature solar thermal energy storage applications.Read moreRead less
Multifunctional nanoballs and variable length ligands. Nanometer sized molecules will produce new advanced materials that absorb hydrogen (energy storage) and carbon dioxide (pollution control), separate gases, produce cleaner chemical reactions and magnetically switch in response to temperature, light and guests. Other new materials will increase or decrease their porosity in a controlled fashion.