Articles with "implantable bioelectronics" as a keyword



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Wireless Power Transfer and Telemetry for Implantable Bioelectronics.

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Published in 2021 at "Advanced healthcare materials"

DOI: 10.1002/adhm.202100614

Abstract: Implantable bioelectronic devices are becoming useful and prospective solutions for various diseases owing to their ability to monitor or manipulate body functions. However, conventional implantable devices (e.g., pacemaker and neurostimulator) are still bulky and rigid,… read more here.

Keywords: power transfer; telemetry implantable; implantable bioelectronics; power ... See more keywords
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Ionic communication for implantable bioelectronics

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Published in 2022 at "Science Advances"

DOI: 10.1126/sciadv.abm7851

Abstract: Implanted bioelectronic devices require data transmission through tissue, but ionic conductivity and inhomogeneity of this medium complicate conventional communication approaches. Here, we introduce ionic communication (IC) that uses ions to effectively propagate megahertz-range signals. We… read more here.

Keywords: ionic communication; implantable bioelectronics; communication implantable; communication ... See more keywords
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Wafer-patterned, permeable, and stretchable liquid metal microelectrodes for implantable bioelectronics with chronic biocompatibility.

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Published in 2023 at "Science advances"

DOI: 10.1126/sciadv.adg8602

Abstract: Implantable bioelectronics provide unprecedented opportunities for real-time and continuous monitoring of physiological signals of living bodies. Most bioelectronics adopt thin-film substrates such as polyimide and polydimethylsiloxane that exhibit high levels of flexibility and stretchability. However,… read more here.

Keywords: implantable bioelectronics; liquid metal; biocompatibility; metal microelectrodes ... See more keywords
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Hydrogels and conductive hydrogels for implantable bioelectronics

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Published in 2023 at "MRS Bulletin"

DOI: 10.1557/s43577-023-00536-1

Abstract: Hydrogels are a class of soft materials, which display unique biomimetic properties to biological tissues. Their mechanical properties, high water content, and porosity resemble that of extracellular matrix so that cell growth and proliferation can… read more here.

Keywords: implantable bioelectronics; hydrogels conductive; hydrogels implantable; conductive hydrogels ... See more keywords