Navale, A Method for the Measurement of the k Factor in Lossy Piezoelectric Materials. Park, Development of a High-resolution acoustic sensor based on ZnO film deposited by the RF magnetron sputtering method. Bakenov, A review of piezoelectric pvdf film by electrospinning and its applications. Cheng, Fine scale 2-2 connectivity PZT/epoxy piezoelectric fiber composite for high frequency ultrasonic application. Liu, Strategies to achieve high performance piezoelectric nanogenerators. Bell, High voltage coefficient piezoelectric materials and their applications. Cho, Origin of enhanced piezoelectric energy harvesting in all-polymer-based core–shell nanofibers with controlled shell-thickness. Lin, Paste extrusion 3D printing and characterization of lead zirconate titanate piezoelectric ceramics. Thompson, Racemic amino acid piezoelectric transducer. Sharma, High-performance flexible yarn for wearable piezoelectric nanogenerators. Fukada, History and recent progress in piezoelectric polymers. feng, BiScO3-BiFeO3-PbTiO3-BaTiO3 high-temperature piezoelectric ceramic and its application on high-temperature acoustic emission sensor. ![]() Poulin-Vittrant, Organic/inorganic hybrid stretchable piezoelectric for self-powered wearable electronics. Gontean, Piezoelectric energy harvesting solutions: A review. Zhou, Eco-friendly highly sensitive transducers based on a new KNN-NTK-FM lead-free piezoelectric ceramic for high-frequency biomedical ultrasonic imaging applications. Dunn, Piezoelectric and ferroelectric materials and structures for energy harvesting applications. Minary-Jolandan, High-performance coils and yarns of polymeric piezoelectric nanofibers. Ballas, The piezoelectric effect – An indispensable solid state effect for contemporary actuator and sensor technologies. Abolhasani, Self-powered cardiac pacemaker by piezoelectric polymer nanogenerator implant. In this section, the concept of piezoelectricity, piezoelectric energy harvesting theory, piezoelectric materials, and energy applications based on piezoelectric materials will be discussed. Piezoelectric material-based mechanical, vibration, wind, sound, and even biomechanical energy harvesters have been produced by many researchers. Piezoelectric devices are one of the most attractive systems among these for energy and sensing applications. In this context, among alternative energy sources, piezoelectric, triboelectric, thermoelectric, pyroelectric, and electromagnetic conversion are the main mechanisms for energy generation in large and/or small scale applications. ![]() Wireless and self-powered systems for consumer electronics have been in a rising trend in recent years as a result of developments in alternative energy studies, unsustainable nature of fossil fuels, and environmental concerns.
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