Piezo- and flexoelectric membrane materials underlie fast biological motors in the ear

Materials Research Society Symposium Proceedings

Volumn 1186, Issue , 2009, Pages 67-78

  Breneman, Kathryn D ^a   Rabbitt, Richard D ^a,b  

^a University of Utah   (United States)

^b MARINE BIOLOGICAL LABORATORY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AUDIO FREQUENCIES; BIOLOGICAL MOTORS; BIOPHYSICAL MECHANISM; COMPLEX MEMBRANE; CYCLE BASIS; DYNAMIC RANGE; ELECTRICAL CONTROL; ELECTRICAL POWER; ELECTROMOTILITY; FLEXOELECTRIC; FLEXOELECTRICITY; HAIR BUNDLES; HAIR CELLS; IN-CELL; INNER EAR; LATERAL WALLS; MAMMALIAN INNER EAR; MATERIAL PROPERTY; MECHANICAL AMPLIFICATION; MECHANICAL VIBRATIONS; MEMBRANE MATERIAL; MEMBRANE POTENTIALS; MICROVILLI; MODEL PREDICTION; MYOSIN MOTORS; OUTER HAIR CELL; PLASMA MEMBRANES; POWER CONVERSION EFFICIENCIES; SENSORY HAIR CELLS; SIGNALS OF INTERESTS; SKELETAL MUSCLE; SOUND-INDUCED VIBRATION; SYNAPTIC CONTACTS;

AMPLIFICATION; BIOLOGICAL MATERIALS; BIOLOGICAL ORGANS; CELL MEMBRANES; CONVERSION EFFICIENCY; ELECTRIC PROPERTIES; MAMMALS; MATHEMATICAL MODELS; MECHANICAL PROPERTIES; MEMBRANES; PIEZOELECTRICITY; VIBRATIONS (MECHANICAL);

PIEZOELECTRIC MOTORS;

EID: 77950573416     PISSN: 02729172     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

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