Electron and Nuclear Magnetic Resonance in Semiconducting Phosphate Glasses

Abstract

Paramagnetic vanadium‐phosphate and molybdenum‐phosphate glasses have been studied using electron‐spin resonance and nuclear magnetic resonance. These glasses were nominally 80% MO:20% P₂O₅, where MO denotes the transition‐metal oxide. The electron‐spin‐resonance results showed a strongly exchanged, narrowed interaction with V⁴⁺/V⁵⁺ and Mo⁵⁺/Mo⁶⁺ ratios and line shapes which were independent of temperature over the range 77°–300°K. Since the conductivity is nonlinear in this temperature range, the result is direct evidence that the mobility is temperature dependent and that the average paramagnetic‐site is unchanged over this temperature range. The nuclear magnetic resonance of ⁵¹V and ³¹P in the glasses verifies the assumption of exchange narrowing. The ⁵¹V quadrupole coupling (1.5 MHz) and spin‐lattice relaxation time (T₁31P resonances in each of the glasses also had temperature‐independent properties. For the molybdenum glass the linewidth was 0.45 G and T₁=300 msec. For the vanadium glass the corresponding numbers were 1.4 G and <500 μsec. The results are compared in part with previously published values.