Electric field induced resistive switching in M3+xV1-xO2 (M3+= Ga3+, Al3+) single crystals at temperatures below the T M2 phase transition

Abstract

The phase diagram of VO2 strained or doped with several trivalent ions consists of four phases; in order of increasing temperatures, three (M1, T and M2) are insulating while the fourth (R), above ~340 K, is metallic. These phases and the three phase transitions have been thoroughly investigated for about half a century by a wide variety of techniques, including electronic transport. While an upwards jump of the resistance of up to a factor of 2 was observed at the T-M2 transition and a drop of several orders of magnitude was observed at the M2 one, resistive switching at the M1 transition remained elusive over all these years. Here we report on the investigation of Ga- and Al-doped VO2 single crystals, following the rather surprising appearance of a small and steep drop of a factor of ~ 0.12 in the resistance of Ga-doped VO2 single crystals detected by pulsed and DC I-V measurements carried out at room temperature, below the T2 phase transition. Similar results were obtained also from measurements on Al-doped VO2 single crystals. Raman spectra of Ga-, and Al-doped crystals resolved their structures as function of temperature. The accumulated results of the measurements on Ga-, and Al-doped single crystals provide evidence for identifying the resistive switching at T RS<T T M2 with the M1 transition.