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Measurements for different PEDOT:PF6 fiber networks
Metadata
| Other contributing persons, institutions or organisations | eu - Funder | |
| Other contributing persons, institutions or organisations | Habenicht, Carsten - TU Dresden - Researcher | |
| Other contributing persons, institutions or organisations | Leo, Karl - TU Dresden - Supervisor | |
| Other contributing persons, institutions or organisations | Mittmann, Maarten - TU Dresden - Researcher | |
| Person(s) who is (are) responsible for the content of the research data | Kleemann, Hans - TU Dresden | |
| Abstract | Each folder represents one or more unique PEDOT:PF6 fiber networks. Different types of measurement might be found for each network, including impedance measurements ("Autolab" folder), transistor measurements ("SMU" folder) and acoustic/seismic excitation measurements ("Oscilloscope" folder), as well as pictures of the networks or videos of the fiber growth process. | |
| Year or period of data production | 2022-2023 | |
| Publication year | 2024 | |
| Publisher | Technische Universität Dresden | |
| Content of the research data | Text, Image, Audiovisual, Dataset: Microscopic images and videos of fiber network growth. Datasets include impedance measurements, transistor measurements and oscilloscope measurements with acoustic/seismic excitation. A Labbook with additional information on the measurements is also included. | |
| Holder of usage rights | Technische Universität Dresden | |
| Usage rights of the data | CC-BY-NC-4.0 | |
| Discipline(s) | Physics | de |
| Title of the dataset | Measurements for different PEDOT:PF6 fiber networks |
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Research data for infrasound detection using polymer networks in liquid films [1]
This data collection includes measurements of different PEDOT:PF6 fiber networks, including their impedance spectrum, transistor measurements, pictures of the networks and their reaction to acoustic/seismic excitation measured with an oscilloscope. The networks were grown in a free-standing liquid film using sulfolane as a solvent, TBAPF6 as a salt and EDOT as a monomer. Fibers were grown using AC electropolymerization and then excited using a custom-made infrasound generator.