«With nanoengineering, we made a unique metal -
organic framework structure that solves the big problems of conductivity, and access to active sites,» says Zhao.
Not exact matches
«Hot «new» material found to exist in nature: Rare minerals from Siberia found to have same
structure as some man - made metal -
organic frameworks.»
Metal -
organic frameworks (MOFs) based on lanthanides (Ln - MOFs) offer a wide range of possibilities for targeted variations in
structure.
The
structure of neon captured within the
framework known as NiMOF - 74, a porous
framework built from nickel metal centres and
organic linkers, shows clear nickel to neon interactions forming at low temperatures significantly shorter than would be expected from a typical weak contact.
The latter focuses on zeolites and metal —
organic frameworks: sponge - like materials with regularly repeating holes in their crystal
structures that can trap gas molecules and could be used to store methane or carbon dioxide.
Makoto Fujita and his team from Japan's University of Tokyo created scaffolding - like crystalline
structures known as metal -
organic frameworks, or MOFs, whose empty spaces can soak up molecules and provide an ordered array that enables the molecules to then be characterized by X-ray analysis.
Metal -
organic frameworks are two - dimensional
structures that contain cobalt, sulfur, and carbon atoms.
Besides, unlike the existing 3D
organic frameworks, the
structure of resulting material is highly stable in a practical range of thermal and physiochemical conditions.
Invented by Yaghi, COFs and MOFs consist of molecules (
organics for COFs and metal -
organics for MOFs) that are stitched into large and extended netlike
frameworks whose
structures are held together by strong chemical bonds.
A unique inside look at the electronic
structure of a highly touted metal -
organic framework (MOF) as it is adsorbing carbon dioxide gas should help in the design of new and improved MOFs for carbon capture and storage.