Barium titanate (BTO) is a ferroelectric perovskite used in electronics and energy storage systems because of its high dielectric constant. Decreasing the BTO particle size was shown to increase the dielectric constant of the perovskite, which is an intriguing but contested result. We investigated this result by fabricating silicone-matrix nanocomposite specimens containing BTO particles of decreasing diameter. Furthermore, density functional theory modeling was used to understand the interactions at the BTO particle surface. Combining results from experiments and modeling indicated that polymer type, particle surface interactions, and particle surface structure can influence the dielectric properties of polymer-matrix nanocomposites containing BTO.
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Abstract Graphical abstract -
Will-Cole, A. R. ; Hart, James L. ; Lauter, Valeria ; Grutter, Alexander ; Dubs, Carsten ; Lindner, Morris ; Reimann, Timmy ; Valdez, Nichole R. ; Pearce, Charles J. ; Monson, Todd C. ; et al ( , Physical Review Materials)
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Cooper, Emma ; De Anda, Eduardo ; Flitz, Evan ; Kim, Halie ; Casañas, Nicholas ; Johnson, Lillian ; Kedzierski, Zoe ; Domrzalski, Jessica ; Dato, Albert ; Monson, Todd ( , MRS Advances)Abstract Barium titanate (BTO) is a ferroelectric material used in capacitors because of its high bulk dielectric constant. However, the impact of the size of BTO on its dielectric constant is not yet fully understood and is highly contested. Here, we present an investigation into the dielectric constant of BTO nanoparticles with diameters ranging between 50 and 500 nm. BTO nanoparticles were incorporated into acrylonitrile butadiene styrene and injection molded into parallel plate capacitors, which were used to determine nanocomposite dielectric constants. The dielectric constants of BTO nanoparticles were obtained by combining experimental measurements with computational results from COMSOL simulations of ABS-matrix nanocomposites containing BTO. The dielectric constant of BTO was observed to be relatively constant at nanoparticle diameters as small as 200 nm but sharply declined at smaller nanoparticle sizes. These results will be useful in the development of improved energy storage and power conditioning systems utilizing BTO nanoparticles. Graphical abstractmore » « less