Time-dependent mechanical-electrical coupled behavior in single crystal ZnO nanorods

Nanoscale time-dependent mechanical-electrical coupled behavior of single crystal ZnO nanorods was systematically explored, which is essential for accessing the long-term reliability of the ZnO nanorod-based flexible devices. A series of compression creep tests combined with in - situ electrical measurement was performed on vertically-grown single crystal ZnO nanorods. Continuous measurement of the current ( I )-voltage ( V ) curves before, during, after the creep tests revealed that I is non-negligibly increased as a result of the time-dependent deformation. Analysis of the I - V curves based on the thermionic emission-diffusion theory allowed extraction of nanorod resistance, which was shown to decrease as time-dependent deformation. Finally, based on the observations in this study, a simple analytical model for predicting the reduction in nanorod resistance as a function of creep strain that is induced from diffusional mechanisms is proposed and this model was demonstrated to be in an excellent agreement with the experimental results.