Publications
Investigating the dielectric properties of barium titanate nanocomposites using transmission electron microscopy image processing
Ferro, Gio; Ganjam, Dithi; Gibson, Maia; Partington, Katie; Trikha, Akshay; Wu, Mandy; Domrzalski, Jessica N.; Dato, Albert; Monson, Todd M.
Barium titanate (BTO) is a ferroelectric perovskite material used in energy storage applications because of its high dielectric constant. A previous study showed that the dielectric constant for BTO nanoparticles drastically increases to over 15,000 at a particle size of 70 nm. This result is highly contested, but its implications to energy storage motivated our investigation into the dielectric constants of BTO nanoparticles that are incorporated into a polymer matrix. We developed a novel method of using image processing techniques on transmission electron microscope images of BTO-polymer nanocomposites. Data on the positions, shapes, sizes, and orientations of BTO nanoparticles were used to build more realistic computational models that simulate the dielectric behavior of the nanocomposites. Here, we investigate the relationship between regions of enhanced electric field and the composite dielectric constant.