Finely depressed dielectric loss and conductivity achieved in high-kappa stannic oxide/polymer nanocomposites from surfactant-assisted electric percolation

“…Improving the dispersion uniformity of ceramic materials in polymers is an effective means to increase the dielectric constant of the polymer-ceramic composites. 17 , 18 Therefore, it is reasonable to infer that improving the homogeneity of the ceramic materials in the composites can increase the dielectric constant of the films and then obtain a greater flexoelectric response.…”

Giant flexoelectric response of uniformly dispersed BT-PVDF composite films induced by SDS-assisted treatment

“…Improving the dispersion uniformity of ceramic materials in polymers is an effective means to increase the dielectric constant of the polymer-ceramic composites. 17 , 18 Therefore, it is reasonable to infer that improving the homogeneity of the ceramic materials in the composites can increase the dielectric constant of the films and then obtain a greater flexoelectric response.…”

Giant flexoelectric response of uniformly dispersed BT-PVDF composite films induced by SDS-assisted treatment

Development of conductive poly (para-aminophenol)/zinc oxide nanocomposites for optoelectronic devices

A review on polyvinylidene fluoride polymer based nanocomposites for energy storage applications