Jinho Kim scite author profile

Jinho Kim

2Publications

1Citation Statement Received

63Citation Statements Given

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Daegu Gyeongbuk Institute of Science and Technology

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Surface‐Embedding of Mo Microparticles for Robust and Conductive Biodegradable Fiber Electrodes: Toward 1D Flexible Transient Electronics

et al. 2023

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Fiber-based implantable electronics are one of promising candidates for in vivo biomedical applications thanks to their unique structural advantages. However, development of fiber-based implantable electronic devices with biodegradable capability remains a challenge due to the lack of biodegradable fiber electrodes with high electrical and mechanical properties. Here, a biocompatible and biodegradable fiber electrode which simultaneously exhibits high electrical conductivity and mechanical robustness is presented. The fiber electrode is fabricated through a facile approach that incorporates a large amount of Mo microparticles into outermost volume of a biodegradable polycaprolactone (PCL) fiber scaffold in a concentrated manner. The biodegradable fiber electrode simultaneously exhibits a remarkable electrical performance (≈43.5 𝛀 cm −1 ), mechanical robustness, bending stability, and durability for more than 4000 bending cycles based on the Mo/PCL conductive layer and intact PCL core in the fiber electrode. The electrical behavior of the biodegradable fiber electrode under the bending deformation is analyzed by an analytical prediction and a numerical simulation. In addition, the biocompatible properties and degradation behavior of the fiber electrode are systematically investigated. The potential of biodegradable fiber electrode is demonstrated in various applications such as an interconnect, a suturable temperature sensor, and an in vivo electrical stimulator.

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Surface‐Embedding of Mo Microparticles for Robust and Conductive Biodegradable Fiber Electrodes: Toward 1D Flexible Transient Electronics (Adv. Sci. 15/2023)

Kim¹,

Yang²,

Yun³

et al. 2023

Advanced Science

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Biodegradable Fiber Electrodes In article number 2206186, Jaehong Lee and co‐workers report a biodegradable fiber electrode fabricated by physically embedding a large amount of molybdenum (Mo) microparticles into surface of polycaprolactone (PCL) scaffold fiber. The biodegradable fiber electrode shows both excellent electrical conductivity and mechanical robustness. This study plays an essential role in preparing 1D flexible transient electronics.

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Jinho Kim

Surface‐Embedding of Mo Microparticles for Robust and Conductive Biodegradable Fiber Electrodes: Toward 1D Flexible Transient Electronics

Surface‐Embedding of Mo Microparticles for Robust and Conductive Biodegradable Fiber Electrodes: Toward 1D Flexible Transient Electronics (Adv. Sci. 15/2023)

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