Hui Ju Choi scite author profile

Hui Ju Choi

5Publications

9Citation Statements Received

77Citation Statements Given

How they've been cited

How they cite others

119

Affiliations

Kyungpook National University, Korea Institute of Materials Science

Publications

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3D Antidrying Antifreezing Artificial Skin Device with Self‐Healing and Touch Sensing Capability

Shin

Kim

Choi

et al. 2021

Macromol. Rapid Commun.

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Hydrogels are attractive, active materials for various e‐skin devices based on their unique functionalities such as flexibility and biocompatibility. Still, e‐skin devices are generally limited to simple structures, and the realization of optimal‐shaped 3D e‐skin devices for target applications is an intriguing issue of interest. Furthermore, hydrogels intrinsically suffer from drying and freezing issues in operational capability for practical applications. Herein, 3D artificial skin devices are demonstrated with highly improved device stability. The devices are fabricated in a target‐oriented 3D structure by extrusion‐based 3D printing, spontaneously heal mechanical damage, and enable stable device operation over time and under freezing conditions. Based on the material design to improve drying and freezing resistance, an organohydrogel, prepared by solvent displacement of hydrogel with ethylene glycol for 3 h, exhibits excellent drying resistance over 1000 h and improved freezing resistance by showing no phase transition down to −60 °C while maintaining its self‐healing functionality. Based on the improved drying and freezing resistance, artificial skin devices in target‐oriented optimal 3D structures are presented, which enable accurate positioning of touchpoints even on a complicated 3D structure stably over time and excellent operation at temperatures below 0 °C without losing their flexibility.

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Material Design for 3D Multifunctional Hydrogel Structure Preparation

Shin

Kim

et al. 2021

Macro Materials & Eng

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Hydrogels are recognized as one of the most promising materials for e‐skin devices because of their unique applicable functionalities such as flexibility, stretchability, biocompatibility, and conductivity. Beyond the excellent sensing functionalities, the e‐skin devices further need to secure a target‐oriented 3D structure to be applied onto various body parts having complex 3D shapes. However, most e‐skin devices are still fabricated in simple 2D film‐type devices, and it is an intriguing issue to fabricate complex 3D e‐skin devices resembling target body parts via 3D printing. Here, a material design guideline is provided to prepare multifunctional hydrogels and their target‐oriented 3D structures based on extrusion‐based 3D printing. The material design parameters to realize target‐oriented 3D structures via 3D printing are systematically derived from the correlation between material design of hydrogels and their gelation characteristics, rheological properties, and 3D printing processability for extrusion‐based 3D printing. Based on the suggested material design window, ion conductive self‐healable hydrogels are designed and successfully applied to extrusion‐based 3D printing to realize various 3D shapes.

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Gel Polymer Electrolyte with Improved Adhesion Property Based on Poly(4-Hydroxybutyl Acrylate) for Lithium-Ion Batteries

Choi

Kim

Jeong

et al. 2023

Preprint

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Preparation and Magnetorheological Characterization of Polymer Coated-Carbonyl Iron Suspensions

Choi¹,

Park²,

You³

et al. 2007

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Temperature-directed fluorescent switchable nanoparticles based on P3OT–PNIPAM nanogel composite

Oh¹,

Shin²,

Kim³

et al. 2023

European Polymer Journal

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Hui Ju Choi

3D Antidrying Antifreezing Artificial Skin Device with Self‐Healing and Touch Sensing Capability

Material Design for 3D Multifunctional Hydrogel Structure Preparation

Gel Polymer Electrolyte with Improved Adhesion Property Based on Poly(4-Hydroxybutyl Acrylate) for Lithium-Ion Batteries

Preparation and Magnetorheological Characterization of Polymer Coated-Carbonyl Iron Suspensions

Temperature-directed fluorescent switchable nanoparticles based on P3OT–PNIPAM nanogel composite

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