Hyun-Su Lim scite author profile

Hyun-Su Lim

4Publications

27Citation Statements Received

71Citation Statements Given

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111

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Jeonbuk National University

Publications

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One-Way Continuous Deposition of Monolayer MXene Nanosheets for the Formation of Two Confronting Transparent Electrodes in Flexible Capacitive Photodetector

Lim

Kim

2021

ACS Appl. Mater. Interfaces

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MXenes based on titanium carbide are promising next-generation transparent electrode materials due to their high metallic conductivity, optical transparency, mechanical flexibility, and abundant hydrophilic surface functionality. MXene electrodes offer a much wider conductive surface coverage than metal nanowires, thereby gaining popularity as flexible electrode materials in supercapacitors and energy devices. However, given that monolayer MXene nanosheets are only a few nanometers thick, meticulous surface treatments and deposition technologies are required for a practical implementation of these transparent electrodes. Unfortunately, a capacitor produced by forming high-quality transparent MXene electrodes on both sides of a film has not yet been reported. We report the successful development of a one-way continuous deposition technology to form high-quality MXene nanosheet-based transparent electrodes on both surfaces of a polymer film without large physical stresses on the MXene nanosheets. One transparent electrode was formed by transferring MXene nanosheets predeposited on a temporary glass substrate to the film surface, while the other was directly deposited on the exposed film surface. The Ti3AlC2 precursor (MAX) was synthesized via a spark plasma sintering crystallization, and the MXene nanosheets were prepared via a subsequent Al-selective etching and delamination. We used this material to implement a capacitive photodetector consisting of two layers of opposing transparent electrodes. The flexible photodetector was based on poly(vinyl butyral) (PVB), which was solidly bonded with MXene nanosheets to serve as a free-standing binder for the Cu-doped ZnS semiconductor particles. The fabricated device exhibited excellent mechanical stability due to the high affinity between the MXene nanosheets and PVB. Furthermore, the device exhibited an initial capacitance of 2 nF, photosensitivity of 12.5 μF/W, and rise and decay times of 0.031 and 0.751 s, respectively. All these parameters were 1 to 2 orders of magnitude higher or faster than reported capacitive photodetectors. Overall, the proposed approach resolves the core issues associated with existing metal nanowire-based electrodes, and it is a breakthrough in the development of next-generation flexible devices comprising two layers of confronting transparent electrodes.

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Self-healable, Stretchable, and Highly Luminous Electroluminescent Elastomeric Film Using a Reversibly Crosslinkable Polyurethane

Lim

Yoo

et al. 2021

Electron. Mater. Lett.

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An Efficient Ray-tracing Method for Analysis and Design of Electromagnetic Shielded Room Systems

Wang¹,

Lim²,

Li³

2005

Journal of Electromagnetic Waves and Applications

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Development of a Highly Flexible Composite Electrode Comprised of Ti3C2-Based MXene Nanosheets and Ag Nanoparticles

Lim

Choi

Kwon

et al. 2021

Electron. Mater. Lett.

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Hyun-Su Lim

One-Way Continuous Deposition of Monolayer MXene Nanosheets for the Formation of Two Confronting Transparent Electrodes in Flexible Capacitive Photodetector

Self-healable, Stretchable, and Highly Luminous Electroluminescent Elastomeric Film Using a Reversibly Crosslinkable Polyurethane

An Efficient Ray-tracing Method for Analysis and Design of Electromagnetic Shielded Room Systems

Development of a Highly Flexible Composite Electrode Comprised of Ti3C2-Based MXene Nanosheets and Ag Nanoparticles

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