Title :
Physics of electromechanically active, cellular materials
Author :
Bauer, S. ; Bauer-Gogonea, S. ; Dansachmulller, M. ; Hoislbauer, H. ; Lindner, M. ; Schwödiauer, R.
Author_Institution :
Dept. Appl. Phys., Johannes Kepler Univ., Linz, Austria
Abstract :
Cellular space-charge electrets have recently emerged as a new class of materials for electromechanical devices, offering chances for a wide range of applications and challenges for materials optimisation. However, many fundamental and applied aspects of the physics of these space-charge electrets are not yet fully explored. Here we summarise briefly our present understanding of the charging process and of the piezo- and pyroelectric response. In addition, wide-ranging similarities between cellular space-charge electrets and ferroelectric materials are outlined, especially switching of polarization and piezoelectricity.
Keywords :
dielectric polarisation; electrets; piezoelectric materials; pyroelectricity; space charge; cellular material; charging process; electromechanical activity; ferroelectric material; piezoelectric response; polarization switching; pyroelectric response; space charge electret; Air gaps; Biological materials; Dielectric materials; Electrets; Ferroelectric materials; Physics; Plasma temperature; Polymer films; Polymer foams; Pyroelectricity;
Conference_Titel :
Electrets, 2002. ISE 11. Proceedings. 11th International Symposium on
Print_ISBN :
0-7803-7560-2
DOI :
10.1109/ISE.2002.1042941
