Parali L.Şabikoʇlu I.Kurbanov M.A.2024-07-222024-07-22201401694332http://akademikarsiv.cbu.edu.tr:4000/handle/123456789/16605A hybrid piezoelectric composite structure is obtained by addition of nano-sized BaTiO 3 , SiO 2 to the micro-sized PZT and polymers composition. Although the PZT material itself has excellent piezoelectric properties, PZT-based composite variety is limited. Piezoelectric properties of PZT materials can be varied with an acceptor or a donor added to the material. In addition, varieties of PZT-based sensors can be increased with doping polymers which have physical-mechanical, electrophysical, thermophysical and photoelectrical properties. The active matrix hybrid structure occurs when bringing together the unique piezoelectric properties of micro-sized PZT with electron trapping properties of nano-sized insulators (BaTiO 3 or SiO 2 ), and their piezoelectric, mechanic and electromechanic properties significantly change. In this study, the relationship between the piezoelectric constant and the coupling factor values of microstructure (PZT-PVDF) and the hybrid structure (PZT-PVDF-BaTiO 3 ) composite are compared. The d 33 value and the coupling factor of the hybrid structure have shown an average of 54 and 62% increase according to microstructure composite, respectively. In addition, the d 33 value and the coupling factor of the hybrid structure (PZT-HDPE-SiO 2 ) have exhibited about 68 and 52% increase according to microstructure composite (PZT-HDPE), respectively. © 2013 Elsevier B.V. All rights reserved.EnglishBarium titanateCouplingsLead zirconate titanateMicrostructureNanosensorsPiezoelectricityPolymersSilicaBaTiO3HybridPiezoelectric propertyPiezoelectric sensorsSiO2Structural propertiesConference paper10.1016/j.apsusc.2013.10.043