When Metal Organic Frameworks Turn into One-Dimensional Magnets
Simulations and experiments reveal one-dimensional nano-size magnets are formed in a common porous material.
Simulations and experiments reveal one-dimensional nano-size magnets are formed in a common porous material.
Studying the photodetachment of a stable anion provides an experimental-theoretical benchmark of the chemical dynamics.
Single-molecule wobbling measurements help to elucidate molecular confinement within cylindrical nanopores.
Studies of protactinium aim to understand its chemistry and its unique electronic properties in the actinide elements.
Researchers observe metal-trapping on mineral surfaces.
New insights from neutron diffraction reveal changes to atomic structure.
A novel tool to determine the structure of difficult to crystallize proteins.
New catalyst material provides potential for cheaper renewable hydrogen production.
Results show absorption properties of brown carbon depend more on burn conditions than fuel type, providing important information to model climates.
Model comparison evaluates black carbon levels and impacts.
New, rapid, and low-cost approach can be applied to many species.
Modeling experiments assess impacts of key melting behavior.