Systematics in the metal-insulator transition temperatures in vanadium oxides

Abstract

Nine of the known vanadium oxides, VO2-1/n (n - a positive or negative integer) with n=2 - 6, 8, 9, ∞ and -6, undergo metal-insulator transitions accompanied by structural transitions, at various temperatures TMIT (V7O13 is metallic above T=0). Among the persistent efforts to determine the driving force(s) of these transitions, electron-electron (Mott-like) and electron-phonon (Peierls-like) interactions, there were several attempts to find systematics in TMIT as function of n. Here we present an unexpectedly simple and illuminating systematics that holds for positive n: if TMIT is the absolute value of the difference between TM(n) and TP(n), which represent the contributions of electron-electron and electron-phonon interactions, respectively, all data points of TM-TP versus 1/n lie on, or close to, two simple straight lines; one is TM-TP= T∞(7/n-1) for V3O5, V4O7, V5O9, V7O13, V8O15, V9O17 and VO2 and the other is TM-TP= T∞(3/n-1) for V2O3, V6O11 and VO2.