Heung-Soo Kim scite author profile

Piezoelectric thin films offer a number of advantages in various applications, such as high energy density harvesters, a wide dynamic range, and high sensitivity sensors, as well as large displacement and low power consumption actuators. This review covers the available material forms and applications of piezoelectric thin films: lead zirconate titanate (PZT)-based thin films, lead-free piezoelectric thin films, piezopolymer films, cellulose-based electroactive paper (EAPap), and many other thin films used for electromechanical transduction. The electromechanical properties and performances of piezoelectric films are compared and their suitability for particular applications are reported. The key ideas of piezoelectric thin films are reviewed and discussed for sensory and actuation systems, energy harvesting, and medical and acoustic transducers. In the last section, an insight into the future outlook and possibilities for thin film-based devices and their integration into real-world applications is presented.

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New extruded multi-cell aluminum profile for maximum crash energy absorption and weight efficiency

Kim¹

2002

Thin-Walled Structures

337

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Structural vibration-based classification and prediction of delamination in smart composite laminates using deep learning neural network

Khan

Lim

et al. 2019

Composites Part B: Engineering

185

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Characterization of delamination effect on composite laminates using a new generalized layerwise approach

Kim

Chattopadhyay

Ghoshal

2003

Computers & Structures

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Dynamic Analysis of Composite Laminates with Multiple Delamination Using Improved Layerwise Theory

2003

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Heung-Soo Kim

Piezoelectric thin films: an integrated review of transducers and energy harvesting

New extruded multi-cell aluminum profile for maximum crash energy absorption and weight efficiency

Structural vibration-based classification and prediction of delamination in smart composite laminates using deep learning neural network

Characterization of delamination effect on composite laminates using a new generalized layerwise approach

Dynamic Analysis of Composite Laminates with Multiple Delamination Using Improved Layerwise Theory

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