Electric field-assisted flash sintering of Bi2/3Cu3Ti4O12 starting from a multi-phase precursor powder

We show that powders of bismuth titanate, copper oxide, and titanium oxide can be transformed into a single Bi2/3Cu3Ti4O12 phase and subsequently flash sintered at furnace temperatures of 855 - 910 degrees C in a single running experiment, with an electric field ranging from 5 to 15 V cm(-1) and a current limit of 53 mA mm(-2). The (di) electrical properties of the flashed materials were assessed by impedance spectroscopy. These ceramics show a giant dielectric constant (epsilon' > 10(4)), and an increasing resistivity with raising the field used in the flash, reaching a value as high as 6.7 M Omega cm for 15 V cm(-1). Thus, the one-step experiment process described here greatly simplifies the fabrication of high-density single-phase ceramics of this material while at the same time improving its properties for low leakage high dielectric applications. (AU)