Crystal chemistry and properties of mixed ionic-electronic conductors

Oxides exhibiting mixed oxide-ion and electronic conducting (MIEC) properties have been attracting great interest in recent years due to their technological applications in solid-state electrochemical devices such as solid oxide fuel cells (SOFC), oxygen separation membranes, and electrochemical sensors. This article provides an overview of the composition-structure- property-performance relationships of several mixed conducting oxides: disordered ABO₃ perovskite oxides, A-site ordered layered LnBaCo ₂O_5+δ (Ln = lanthanide) perovskite oxides, Ruddlesden-Popper series of perovskite-based (La,Sr)_n+1M _nO_3n+1 (n∈=∈1-3 and M = Fe, Co, and Ni) intergrowth oxides, and hexagonal RBa(Co_1-yM_y) ₄O₇ (R = rare earth or alkaline earth and M = Zn) oxides. Based on the available data, the role of chemical composition, crystal chemistry, and chemical bonding on the electrical and ionic transport, thermal, and electrochemical properties is discussed.