Title :
Electrostatic Energy Harvester Employing Conductive Droplet and Thin-Film Electret
Author :
Zhaochu Yang ; Halvorsen, Einar ; Tao Dong
Author_Institution :
Dept. of Micro & Nano Syst. Technol., Vestfold Univ. Coll., Horten, Norway
Abstract :
This paper presents detailed investigations on an electrostatic energy harvester using conductive droplet/marble rolling across a charged electret film. Both mercury droplets and ionic liquid marbles were used as the working medium. With a 1.2-mm mercury droplet rolling across the electret film of the prototype, a maximum output power was obtained at 0.18 μW and the peak value of the output voltage was 1.5 V. A semi-empirical model was developed to understand the output waveforms. Applied to the test data, it shows that the transducer short-circuit charge is mainly a function of droplet position in the pattern. Several factors influencing the output performance are discussed. Such droplet-based electrostatic energy harvesters are especially suitable for very low frequency vibration up to a few Hz.
Keywords :
drops; electrets; electrostatic devices; energy harvesting; thin films; charged electret film; conductive droplet; droplet position function; droplet-based electrostatic energy harvesters; ionic liquid marbles; marble rolling; mercury droplet; power 0.18 muW; semiempirical model; thin-film electret; transducer short-circuit charge; voltage 1.5 V; Capacitance; Electrets; Electric potential; Electrodes; Electrostatics; Liquids; Prototypes; Energy harvesting; conductive droplet; electret; electrostatic; ionic liquid marble;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2013.2273933
