Direct detection of local electric polarization in the interfacial region in ferroelectric polymer nanocomposites

S Peng, X Yang, Y Yang, S Wang, Y Zhou… - Advanced …, 2019 - Wiley Online Library
Advanced Materials, 2019Wiley Online Library
Ferroelectric polymer nanocomposites are widely used in capacitive energy storage,
electrocaloric refrigeration, and mechanical energy harvesting due to their exceptional
electric polarization property and ease of fabrication. It is generally considered that the
abnormal performance of ferroelectric nanocomposites stems from the interfacial region
between the polymer matrix and embedded nanoparticles. However, direct evidence of the
distinct local electric polarization property at the interfacial region is not yet accessible …
Abstract
Ferroelectric polymer nanocomposites are widely used in capacitive energy storage, electrocaloric refrigeration, and mechanical energy harvesting due to their exceptional electric polarization property and ease of fabrication. It is generally considered that the abnormal performance of ferroelectric nanocomposites stems from the interfacial region between the polymer matrix and embedded nanoparticles. However, direct evidence of the distinct local electric polarization property at the interfacial region is not yet accessible. Herein, a modified Kelvin probe force microscopy (KPFM) method with nanoscale spatial resolution is reported for direct detection of local polarization property at the matrix/particle interface in ferroelectric nanocomposites. Typical ferroelectric nanocomposites are studied using the present method. It is quantitatively probed that the electric polarization at matrix/particle interfacial region is higher than the polymer matrix under applied electric fields. Taking into account the enhanced local electric polarization gauged by the modified KPFM, the dielectric property of ferroelectric polymer nanocomposites matches with bulk experimental characterizations, indicating that the established method is reliable. It is anticipated that the present method, opening up new possibilities in understanding the matrix/particle interfacial region, may help with judicious design and engineering of high‐performance ferroelectric polymer nanocomposites.
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