Ji-Soo Oh scite author profile

Transparent heat films (THFs) are attracting increasing attention for their usefulness in various applications, such as vehicle windows, outdoor displays, and biosensors. In this study, the effects of induction power and radio frequency on the welding characteristics of silver nanowires (Ag NWs) and Ag NW-based THFs were investigated. The results showed that higher induction frequency and higher power increased the welding of the Ag NWs through the nano-welding at the junctions of the Ag NWs, which produced lower sheet resistance, and improved the adhesion of the Ag NWs. Using the inductive welding condition of 800 kHz and 6 kW for 60 s, 100 ohm/sq of Ag NW thin film with 95% transmittance at 550 nm after induction heating could be decreased to 56.13 ohm/sq, without decreasing the optical transmittance. In addition, induction welding of the Ag NW-based THFs improved haziness, increased bending resistance, enabled higher operating temperature at a given voltage, and improved stability.

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Universal vertical standing of block copolymer microdomains enabled by a gradient block

Song

Hur

Park

et al. 2021

J. Mater. Chem. C

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Highly selective etching of SiN_x over SiO₂ using ClF₃/Cl₂ remote plasma

Yoo

Kang

et al. 2023

Nanotechnology

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Highly selective etching of silicon nitride over silicon oxide is one of the most important processes especially for the fabrication of vertical semiconductor devices including 3D NAND (Not And) devices. In this study, isotropic dry etching characteristics of SiNx and SiO2 using ClF3/Cl2 remote plasmas have been investigated. The increase of Cl2 percent in ClF3/Cl2 gas mixture increased etch selectivity of SiNx over SiO2 while decreasing SiNx etch rate. By addition of 15% Cl2 to ClF3/Cl2, the etch selectivity higher than 500 could be obtained with the SiNx etch rate of ~ 8 nm/min, and the increase of Cl percent to 20% further increased the etch selectivity to higher than 1000. It was found that SiNx can be etched through the reaction from Si-N to Si-F and Si-Cl (also from Si-Cl to Si-F) while SiO2 can be etched only through the reaction from Si-O to Si-F, and which is also in extremely low reaction at room temperature. When SiNx/SiO2 layer stack was etched using ClF3/Cl2(15%), extremely selective removal of SiNx layer in the SiNx/SiO2 layer stack could be obtained without noticeable etching of SiO2 layer in the stack and without etch loading effect.

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Ji-Soo Oh

Enhancing Security of the Android Platform via Multi-level Security Model

The Multi-level Security for the Android OS

Radio Frequency Induction Welding of Silver Nanowire Networks for Transparent Heat Films

Universal vertical standing of block copolymer microdomains enabled by a gradient block

Highly selective etching of SiN_x over SiO₂ using ClF₃/Cl₂ remote plasma

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Ji-Soo Oh

Enhancing Security of the Android Platform via Multi-level Security Model

The Multi-level Security for the Android OS

Radio Frequency Induction Welding of Silver Nanowire Networks for Transparent Heat Films

Universal vertical standing of block copolymer microdomains enabled by a gradient block

Highly selective etching of SiNx over SiO2 using ClF3/Cl2 remote plasma

Contact Info

Product

Resources

About

Highly selective etching of SiN_x over SiO₂ using ClF₃/Cl₂ remote plasma