Title :
Evaluation of the performance of a piezoelectric nanowire-based composite microgenerator
Author :
Graton, Olivier ; Poulin-Vittrant, Guylaine ; Dahiya, Abisheck Singh ; Camara, Nicolas ; Tran Huu Hue, Louis-Pascal ; Lethiecq, Marc
Author_Institution :
Nanotechnol., Micro-/Nanosyst., Devices & Integration, GREMAN, Tours, France
Abstract :
A vertically integrated nanogenerator (VING) refers to the new generation of mechanical energy harvesting devices: arrays of piezoelectric and semiconducting nanowires are grown perpendicularly to a substrate and appropriate electrodes enable the charges circulation through an external electrical load. In this letter, an equivalent circuit of VING is proposed. This model takes into account the effect of the polymer matrix that surrounds the nanowires lattice on the electromechanical behaviour of the generator. The active part of the material is then seen as a 1-3 piezocomposite. Simulations were made to study the VING performance in a context of body movement energy harvesting. In particular, it is shown that the nanowires density and the nature of the polymer have an impact on the nanogenerator volumic power density.
Keywords :
energy harvesting; nanowires; piezoelectric transducers; body movement energy harvesting; composite microgenerator; electromechanical behaviour; mechanical energy harvesting devices; nanowires lattice; piezoelectric nanowire; polymer matrix; vertically integrated nanogenerator; volumic power density; Discharges (electric); Fault location; Nanoscale devices; Nanowires; Oscillators; Performance evaluation; ZnO nanowires; equivalent circuit model; nanogenerator; piezocomposite;
Conference_Titel :
Applications of Ferroelectric and Workshop on the Piezoresponse Force Microscopy (ISAF/PFM), 2013 IEEE International Symposium on the
Conference_Location :
Prague
DOI :
10.1109/ISAF.2013.6748701
