Ryan A. Klein

Hydrogen is emerging as an important renewable fuel source in the global effort to decarbonize the energy network. However, a lack of suitable storage materials has so far hindered the widespread adaptation of hydrogen as a fuel source…

Flexible metal–organic frameworks offer a route towards high useable hydrogen storage capacities with minimal swings in pressure and temperature via step-shaped adsorption and desorption profiles…

Historically, solid-state materials dominated the development of new magnetic technologies. The use of permanent magnets such as Neodymium Iron Boride (NdFeB) and Samarium Cobalt (SmCo) in computer disc drives and car batteries underpinned much of this progress…

Hydrogen will be critically important in the global effort to decarbonize the energy economy. However, improved materials are still needed to help meet new challenges for hydrogen storage and carrier systems…

Adsorption of hydrogen gas in functionalized and high surface area metal-organic frameworks (MOFs) is of emergent technological importance in a multitude of areas from long-term energy storage to boil-off capture…

Anthropogenic carbon dioxide emissions related to fossil fuel combustion and industrial processes account for roughly 65% of greenhouse gas emissions and have resulted in an approximate 1.0 degree Celsius global temperature increase with ongoing deleterious global disasters…