Project Details
Projekt
Entwicklung Mikrostrukturierter energieeffizienter Energie-harvester mit Nanoskaligen Piezoelektrischen Wandlermaterialien (MENPEM)
Applicant
Professor Dr.-Ing. Norbert Schwesinger
Co-Applicant
Professor Dr. Shlomo Berger
Subject Area
Microsystems
Term
from 2012 to 2016
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 215827875
Final Report Year
2017
Final Report Abstract
In the last project period, we focused mainly an the micro fabrication process technology, the implementation of the nano porous piezoelectric layers and the adaption of different technological levels. Another topic was the synchronization of cantilevers arranged in an array. VVe developed a synchronization method that allows to fully synchronize the oscillation of separate cantilevers by a simple mechanical structure.
Publications
- "Pyroelectric response of Sodium Nitrite Nano Crystals Grown Inside Alumina Pores", E-MRS Warsaw September 15-19 (2013)
H. Beshara and S. Berger
- "Flow Energy Harvester with nanoscale, piezoelectric material" VDE/ GMM Workshop EAS 2014, Magdeburg
Spornraft, M., Schwesinger, N., Berger, S.
- "Synchronization of cantilevers arranged in line of a piezoelectric energy harvester" SMASIS 2015, Colorado, US
Spornraft, M., Schwesinger, N.
(See online at https://doi.org/10.1115/SMASIS2015-8928) - „Nutzung von neuartigen nanoporigen, piezoelektrischen Wandlermaterialien in Strömungs-Energy-Harvestern" MST Kongress 2015, Karlsruhe
Spornraft, M., Schwesinger, N.
