Self-Assembled Tetranuclear Square Complex of Chromium(III) Bridged by Radical Pyrazine: A Molecular Model for Metal-Organic Magnets.
Dandan LouNathan J YutronkieItziar OyarzabalLong-Fei WangAbhijit AdakVincent L NadurataRosa DiegoElizaveta A SuturinaAaron MailmanPierre DechambenoitMathieu RouzièresFabrice WilhelmAndrei RogalevSébastien BonhommeauCorine MathonièreRodolphe CléracPublished in: Journal of the American Chemical Society (2024)
The attractive electronic properties of metal-pyrazine materials─electrical conductivity, magnetic order, and strong magnetic coupling─can be tuned in a wide range depending on the metal employed, as well as its ligand-imposed redox environment. Using solvent-directed synthesis to control the dimensionality of such systems, a discrete tetranuclear chromium(III) complex, exhibiting a rare example of bridging radical pyrazine, has been prepared from chromium(II) triflate and neutral pyrazine. The strong antiferromagnetic interaction between Cr III ( S = 3/2) and radical pyrazine ( S = 1/2) spins, theoretically estimated at about -932 K, leads to a thermally isolated S T = 4 ground state, which remains the only populated state observable even at room temperature.