Transport and Phase Transition Characteristics in AgI : Al2 O 3 Composite Electrolytes Evidence for a Highly Conducting 7‐Layer AgI Polytype

Abstract

The extreme conductivity enhancement (by a factor of up to ) in composites as well as the anomalous phase transition to the α‐phase with a large hysteresis of 50°C was confirmed by conductivity, differential scanning calorimetry, and in situ X‐ray diffractometry (XRD). All the composites exhibited an activation energy of 0.29 ± 0.02 eV in conductivity which was identified with the migration enthalpy for transport in the disordered close‐packed layers in AgI system. A close examination of the XRD patterns shows the existence of a seven‐layer polytype (7H) for AgI with the stacking sequence ABCBCAC. This may account for anomalies in the composites in contrast to the ideal space charge effect in and composites. Since the stacking arrangement can be regarded as a heterostructure of β‐AgI (ABABAB…) and γ‐AgI (ABCABC…) with a sub‐Debye length spacing, the conductivity enhancement may be attributed to the mesoscopic multiphase effect predicted earlier. The hysteresis can be attributed to the elastic effects in the martensitic transformation between α‐AgI and 7H‐AgI. © 2000 The Electrochemical Society. All rights reserved.