@inproceedings{FlachsBernhardThielemann2024, author = {Flachs, Dennis and Bernhard, Levin and Thielemann, Christiane}, title = {Fully 3D-Printed Rotational Energy Harvester Based On Bipolar Charged PLA Electrets}, series = {Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS)}, volume = {2024}, booktitle = {Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS)}, publisher = {IEEE}, isbn = {979-8-3503-8020-0}, doi = {979-8-3503-8020-0}, year = {2024}, abstract = {Rotational energy harvesters have emerged as a promising solution for sustainable power generation in a variety of applications, ranging from small-scale devices to large-scale industrial systems. In this work, we present a fully 3D-printed electret rotational harvester based on the biodegradable and compostable polymer polylactic acid (PLA). The 3D-printed harvester consists of a rotor made from a bipolar-charged PLA electret, electrode pairs of conductive PLA that function as the stator, and a PLA bearing. An output power of 61μ W was achieved at a rotational speed of 400 rpm and a load resistance of 28.2MΩ. To assess the durability of the harvester, particularly the 3D-printed bearing, the extent of mechanical wear was examined after one million rotations at a rotational speed of 400 rpm. The findings indicate that the rollers undergo a 1.2\% loss in mass, yet the functionality remains intact. The charge decay of PLA electrets is influenced by external factors such as elevated humidity and temperature. Future research will focus on improving the charge stability of PLA by addressing these factors, expanding the potential applications of this rotational energy harvester.}, subject = {Elektret}, language = {en} }