Flash-sintering of Co2MnO4 spinel for solid oxide fuel cell applications

We show that cobalt manganese oxide (Co₂MnO₄) spinel can be sintered (without the application of external pressure) in a few seconds at about ∼325 °C by applying a DC electrical field of 12.5 V cm⁻¹, by a process known as flash-sintering. A transition from normal to flash-sintering occurs when the field is ≥7.5 V cm⁻¹. The flash sintering phenomenon has also been observed in yttria-stabilized zirconia (3YSZ). Together, the results for 3YSZ and Co₂MnO₄ point towards the generality of the process, since 3YSZ is an ionic conductor while the spinel is a predominantly electronic conductor. The Co₂MnO₄ spinels are used to protect metals, such as stainless steels, in solid oxide fuel cells. The low temperatures employed in flash sintering can obviate interfacial interdiffusion with the metal substrate; in nominal sintering these interfacial reactions can produce deleterious interfacial phases.