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Electrical Interconnects Fabricated From Biodegradable Conductive Polymer Composites. | LitMetric

Electrical Interconnects Fabricated From Biodegradable Conductive Polymer Composites.

IEEE Trans Compon Packaging Manuf Technol

Department of Electrical and Systems Engineering, University of Pennsylvania, Philadelphia, PA 19104 USA.

Published: May 2019

AI Article Synopsis

  • The study focuses on creating biodegradable electrical interconnects for temporary medical implants using a combination of iron microparticles and polycaprolactone (PCL) as the materials.
  • It found that while the electrical performance of these materials changed under physiological degradation, certain compositions (like 40% iron) maintained better stability over time and showed significant improvements in resistivity.
  • Successful integration with a humidity sensor and calculations suggest that these micropatterned interconnects could effectively function in real-world implantable devices for at least 5 days.

Article Abstract

This study presents the development and characterization of biodegradable electrical interconnects for transient implantable medical devices. The interconnects comprised micropatterned biodegradable conductive polymer composites, which were developed using iron (Fe) microparticles as the conductive filler and polycaprolactone (PCL) as the insulating matrix. The electrical properties of the composites were investigated under various degradation conditions. Electrical percolation was observed at 17% iron volume fraction, but higher volume fractions exhibited more stable electrical resistivity throughout the time course of physiological degradation. The electrical resistivity of 40%vf Fe-PCL composites increased tenfold in an emulated packaged environment under degradation. Biodegradable electrical interconnects based on 40%vf Fe-PCL composites were successfully micropatterned in daisy chain structures, illustrating the process compatibility of Fe-PCL composites for interconnect applications. The electrical resistance of the packaged daisy chain structures exhibited a reasonable increase under degradation. An electrical lifetime of over 5 days was also achieved. System integration with a commercial humidity sensor and analytical calculations supporting other application scenarios confirmed the feasibility of micropatterned Fe-PCL interconnects for use in implantable electrical systems.

Download full-text PDF

Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6553660PMC
http://dx.doi.org/10.1109/TCPMT.2019.2905154DOI Listing

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