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Titel:

Conformable Electronics with Conductive Silver Structures by Electrohydrodynamic Printing

Dokumenttyp:
Zeitschriftenaufsatz
Autor(en):
Philippin, N.; Kuehne, I.; Schrag, G.
Abstract:
Recent advances in research and fabrication of flexible, stretchable or rather conformable electronics with printed conductive structures have enabled a wide range of applications. Various fields such as consumer electronics or wearable devices for health monitoring are affected by these achievements. Owing to gradually increasing demands on enhanced functionalities and an excellent deformability of such electronics, an investigation of appropriate hyperelastic materials and progressive manufact...     »
Stichworte:
Philippin; Kuehne; Schrag; Conductive Silver Structures; Electrohydrodynamic; Printing; physics; TPU; conformable electronics; stretchable electronics; EHD; thermoforming; Mooney-Rivlin; PDMS; elastic substrate; Taylor-Cone; Neo-Hookean; Comsol; FEM; PCB; 3-D electronics; prototyping; metallic structures; print; material fatigue; healthcare; biocompatibility; electronic devices; electrohydrodynamically; cooper meanders; electrical conductivity; hemispherical; defo...     »
Dewey Dezimalklassifikation:
620 Ingenieurwissenschaften
Kongresstitel:
IEEE IFETC 2024
Zeitschriftentitel:
IEEE Journal on Flexible Electronics
Jahr:
2024
Quartal:
3. Quartal
Monat:
Jul
Heft / Issue:
VOL. 3, NO. 7
Seitenangaben Beitrag:
348-355
Volltext / DOI:
doi:10.1109/JFLEX.2024.3420263
WWW:
https://ieeexplore.ieee.org/document/10577118
Verlag / Institution:
Institute of Electrical and Electronics Engineers (IEEE)
E-ISSN:
2768-167X
Publikationsdatum:
28.06.2024
Copyright Informationen:
Authorized licensed use limited to: Hochschule Heilbronn. Restrictions apply.
TUM Einrichtung:
CIT, EE, Professorship of Microsensors and Actuators; (Chair of Physics of Electrotechnology)
Eingabe:
04.11.2024
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