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Electrocaloric temperature change in ferroelectric Si-doped hafnium oxide (HfO2) thin films

Presentation held at 37th Spring Meeting of the European Materials Research Society, E-MRS 2019, 27-31 May 2019, Nizza
 
: Mart, C.; Kämpfe, T.; Pätzold, B.; Rudolph, M.; Czernohorsky, M.; Müller, J.; Weinreich, W.

2019, 13 Folien
European Materials Research Society (E-MRS Spring Meeting) <37, 2019, Nizza>
Englisch
Vortrag
Fraunhofer IPMS ()
Anfrage beim Institut / Available on request from the institute bibliothek@ipms.fraunhofer.de

Abstract
Ferroelectric HfO2-based thin films receive extensive research interest due to their large spontaneous polarization, scalability, and CMOS compatible manufacturing. As in ferroelectrics, the remnant polarization exhibits a temperature dependence, one can observe a strong pyroelectric response in such films. Recently, the pyroelectric effect of doped HfO2 films has been observed [1]. The electrocaloric effect is closely related to it, as describing a temperature change of the material due to the application of an electric field. First published results indicate rather large electrocaloric coefficients, making doped HfO2 a promising candidate for on-chip solid-state cooling [2]. In this work, a specialized test structure is used to directly assess the strength of the electrocaloric effect in a 20 nm Si-doped HfO2 nano-laminate. A thin-film temperature sensor is formed on the metal-ferroelectric-metal structure, enabling excitation frequencies of up to 60 kHz. Measurement with respect to an electric bias field provides insight into the nature of thermal-electric energy conversion in HfO2 thin films. Additionally, bias dependent pyroelectric measurements are employed to assess the role of defect dipoles, which may have important implications for electrocaloric applications.

: http://publica.fraunhofer.de/dokumente/N-549167.html