, Ion pairings change honeycomb crystal states, TheCircularEconomy.com

Ion pairings change honeycomb crystal states

ByThe Circular Economy Team

, Ion pairings change honeycomb crystal states, TheCircularEconomy.comTohoku University researchers have observed a rare change in the structure of a mineral-like crystal that, if controlled, could lead to the development of new functional materials.  The findings were reported in the Journal of the American Chemical Society (“Cation Dimerization in a 3d1 honeycomb lattice system”).  The crystal structure of ilmenite-type magnesium vanadate (MgVO3). The yellow line shows the honeycomb lattice. The thick lines indicate the location of V-V dimers. The crystal structure was drawn using VESTA-3 software.  Altering the atomic arrangements within materials can change their magnetic, electrical and optical properties. For instance, the pairing of positively charged cations in quasi one-dimensional crystals, such as vanadium dioxide (VO2), creates ‘covalent’ bonds, which can change the material’s electronic state and thus its conductivity.

Read the full article at: www.nanowerk.com

, Ion pairings change honeycomb crystal states, TheCircularEconomy.com

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