Publications

Dislocation-enhanced electrical conductivity in rutile TiO2 accessed by room-temperature nanoindentation

Bishara, H. and Tsybenko, H. and Nandy, S. and Muhammad, Q.K. and Frömling, T. and Fang, X. and Best, J.P. and Dehm, G.

SCRIPTA MATERIALIA
Volume: 212 Pages:
DOI: 10.1016/j.scriptamat.2022.114543
Published: 2022

Abstract
Dislocation-enhanced electrical conductivity is an emerging topic for ceramic oxides. In contrast to the majority of present studies which focus on large-scale crystal deformation or thin film fabrication to introduce dislocations, we use a nanoindentation “pop-in stop” method to locally generate 〈011〉 edge-type dislocations at room temperature, without crack formation, on the (100) surface of a rutile TiO2 single-crystal. Ion beam assisted deposition of microcontacts allowed for both deformed and non-deformed zones to be locally probed by impedance spectroscopy. Compared to the dislocation-free region, a local enhancement of the electrical conductivity by 50% in the dislocation-rich regions is found. The study paves the way for local “mechanical-doping” of ceramics and oxide materials, allowing for the use of dislocations to tune the local conductivity with high spatial resolution. © 2022 The Author(s)

« back