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Mathematical and numerical models of piezoelectric wave energy converters (MPhil or PhD scholarship)
for piezoelectric wave energy converters. Piezoelectric materials couple elastic strain with electric charge, and flexible piezoelectric materials are of interest due to their potential for capturing the immense
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the vibration reduction requires complex nonlinear static and dynamic computation. An interesting alternative approach consists in using piezoelectric patches to convert mechanical energy into electric one. By
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human health monitoring. This demands for next generation ultrasonic technology. In this project, nano-structured piezoelectric materials and high-performance flexible ultrasonic transducers will be
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Skip to main content. Profile Sign Out View More Jobs Postdoc in lead-free piezoelectric ceramic microstructure control and additive manufacturing - DTU Energy Kgs. Lyngby, Denmark Job Description
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on piezoelectric thin films. Our aim is to develop understanding in depositing high performance piezoelectric films using physical vapor deposition methods such as magnetron sputtering and variants. The XUV Optics
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NIST only participates in the February and August reviews. Piezoelectric resonators offer the potential of enabling high-resolution gas, chemical, and physical sensing in a wide variety of
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harvesters operate using bulky, lead-based piezoelectric materials, which still present major limitations. For instance, they are brittle, inflexible, and contain toxic elements, which limits their wearability
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is engaged in experimental and theoretical research on varieties of technologies for smart systems, such as MEMS (Micro Electro Mechanical Systems), acoustic wave devices, piezoelectric devices
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Institut Lumière Matière ILM- UMR 5306 CNRS / Université Claude Bernard Lyon 1 | Villeurbanne, Rhone Alpes | France | about 2 hours ago
typically rely on bulky piezoelectric substrates with interdigitated electrodes, which often lack biocompatibility and operate at fixed acoustic frequencies, limiting their sensitivity and agility
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and sensing, remote health monitoring, and ultrasound-induced therapies. However, most current ultrasonic energy harvesters operate using bulky, lead-based piezoelectric materials, which still present