Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording

Kyung In Jang; Han Na Jung; Jung Woo Lee; Sheng Xu; Yu Hao Liu; Yinji Ma; Jae Woong Jeong; Young Min Song; Jeonghyun Kim; Bong Hoon Kim; Anthony Banks; Jean Won Kwak; Yiyuan Yang; Dawei Shi; Zijun Wei; Xue Feng; Ungyu Paik; Yonggang Huang; Roozbeh Ghaffari; John A. Rogers

doi:10.1002/adfm.201603146

Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording

Kyung In Jang, Han Na Jung, Jung Woo Lee, Sheng Xu, Yu Hao Liu, Yinji Ma, Jae Woong Jeong, Young Min Song, Jeonghyun Kim, Bong Hoon Kim, Anthony Banks, Jean Won Kwak, Yiyuan Yang, Dawei Shi, Zijun Wei, Xue Feng, Ungyu Paik, Yonggang Huang, Roozbeh Ghaffari, John A. Rogers

Research output: Contribution to journal › Article › peer-review

Abstract

A class of ferromagnetic, folded, soft composite material for skin-interfaced electrodes with releasable interfaces to stretchable, wireless electronic measurement systems is introduced. These electrodes establish intimate, adhesive contacts to the skin, in dimensionally stable formats compatible with multiple days of continuous operation, with several key advantages over conventional hydrogel-based alternatives. The reported studies focus on aspects ranging from ferromagnetic and mechanical behavior of the materials systems, to electrical properties associated with their skin interface, to system-level integration for advanced electrophysiological monitoring applications. The work combines experimental measurement and theoretical modeling to establish the key design considerations. These concepts have potential uses across a diverse set of skin-integrated electronic technologies.

Original language	English (US)
Pages (from-to)	7281-7290
Number of pages	10
Journal	Advanced Functional Materials
Volume	26
Issue number	40
DOIs	https://doi.org/10.1002/adfm.201603146
State	Published - Oct 25 2016

Keywords

composite materials
dry electrodes
electrophysiology
equivalent circuit model
ferromagnetism
finite-element method
stretchable electronics

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
General Chemistry
Biomaterials
General Materials Science
Condensed Matter Physics
Electrochemistry

Online availability

10.1002/adfm.201603146

Library availability

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Jang, K. I., Jung, H. N., Lee, J. W., Xu, S., Liu, Y. H., Ma, Y., Jeong, J. W., Song, Y. M., Kim, J., Kim, B. H., Banks, A., Kwak, J. W., Yang, Y., Shi, D., Wei, Z., Feng, X., Paik, U., Huang, Y., Ghaffari, R., & Rogers, J. A. (2016). Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording. Advanced Functional Materials, 26(40), 7281-7290. https://doi.org/10.1002/adfm.201603146

Jang, KI, Jung, HN, Lee, JW, Xu, S, Liu, YH, Ma, Y, Jeong, JW, Song, YM, Kim, J, Kim, BH, Banks, A, Kwak, JW, Yang, Y, Shi, D, Wei, Z, Feng, X, Paik, U, Huang, Y, Ghaffari, R & Rogers, JA 2016, 'Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording', Advanced Functional Materials, vol. 26, no. 40, pp. 7281-7290. https://doi.org/10.1002/adfm.201603146

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title = "Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording",

abstract = "A class of ferromagnetic, folded, soft composite material for skin-interfaced electrodes with releasable interfaces to stretchable, wireless electronic measurement systems is introduced. These electrodes establish intimate, adhesive contacts to the skin, in dimensionally stable formats compatible with multiple days of continuous operation, with several key advantages over conventional hydrogel-based alternatives. The reported studies focus on aspects ranging from ferromagnetic and mechanical behavior of the materials systems, to electrical properties associated with their skin interface, to system-level integration for advanced electrophysiological monitoring applications. The work combines experimental measurement and theoretical modeling to establish the key design considerations. These concepts have potential uses across a diverse set of skin-integrated electronic technologies.",

keywords = "composite materials, dry electrodes, electrophysiology, equivalent circuit model, ferromagnetism, finite-element method, stretchable electronics",

author = "Jang, {Kyung In} and Jung, {Han Na} and Lee, {Jung Woo} and Sheng Xu and Liu, {Yu Hao} and Yinji Ma and Jeong, {Jae Woong} and Song, {Young Min} and Jeonghyun Kim and Kim, {Bong Hoon} and Anthony Banks and Kwak, {Jean Won} and Yiyuan Yang and Dawei Shi and Zijun Wei and Xue Feng and Ungyu Paik and Yonggang Huang and Roozbeh Ghaffari and Rogers, {John A.}",

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doi = "10.1002/adfm.201603146",

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AU - Jang, Kyung In

AU - Jung, Han Na

AU - Lee, Jung Woo

AU - Xu, Sheng

AU - Liu, Yu Hao

AU - Ma, Yinji

AU - Jeong, Jae Woong

AU - Song, Young Min

AU - Kim, Jeonghyun

AU - Kim, Bong Hoon

AU - Banks, Anthony

AU - Kwak, Jean Won

AU - Yang, Yiyuan

AU - Shi, Dawei

AU - Wei, Zijun

AU - Feng, Xue

AU - Paik, Ungyu

AU - Huang, Yonggang

AU - Ghaffari, Roozbeh

AU - Rogers, John A.

PY - 2016/10/25

Y1 - 2016/10/25

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AB - A class of ferromagnetic, folded, soft composite material for skin-interfaced electrodes with releasable interfaces to stretchable, wireless electronic measurement systems is introduced. These electrodes establish intimate, adhesive contacts to the skin, in dimensionally stable formats compatible with multiple days of continuous operation, with several key advantages over conventional hydrogel-based alternatives. The reported studies focus on aspects ranging from ferromagnetic and mechanical behavior of the materials systems, to electrical properties associated with their skin interface, to system-level integration for advanced electrophysiological monitoring applications. The work combines experimental measurement and theoretical modeling to establish the key design considerations. These concepts have potential uses across a diverse set of skin-integrated electronic technologies.

KW - composite materials

KW - dry electrodes

KW - electrophysiology

KW - equivalent circuit model

KW - ferromagnetism

KW - finite-element method

KW - stretchable electronics

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Ferromagnetic, Folded Electrode Composite as a Soft Interface to the Skin for Long-Term Electrophysiological Recording

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