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High performance electromechanically active materials by Ahsanul Kabir
YCN Research in Spot - February 2021
Electromechanically active materials i.e. materials change their shape in response to an electric field have a wide range of sensing and actuating applications from low to high temperatures.
Figure: Atomistic mechanism of non-classical electrostriction in ceria
Dr. Ahsanul Kabir
Technical University of Clausthal
Institute of Energy Research and Physical Technologies
38640 Goslar, Germany
Email: ahsanul.kabir@tu-clausthal.de
Researchgate: https://www.researchgate.net/profile/Ahsanul_Kabir6
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