Your search keyword '"Sunjung Kim"' showing total 8 results

1. Electrochemical Fabrication and Characterization of Alloy Anode Materials

Author

Geonheum Yeon and Sunjung Kim

Abstract

Studies on secondary batteries with increased specific capacity and more stable charge-discharge performance have been actively conducted. Sn anode has a higher specific capacity than conventional carbon anode; however, the large volume change and cracking of the Sn anode occurs due to de-lithiation reaction during repetitive charge-discharge process. On the other hand, the Ni anode material is highly resistant to cracking during charge-discharge process. Therefore, in this study, the electrochemical formation of porous Sn-Ni alloy anode material is investigated using a polyurethane template of three-dimensional open-cell structure for lithium ion batteries having high specific capacity and improved structural reliability.

Published

2019

2. Electrodeposition of Cu-Ag Alloy Thin Films Directly on W Diffusion Barrier By Controlling Complexing Agents and Organic Additives

Author

Sunjung Kim and Kang O Kim

Abstract

Cu as an excellent electrical conductor has been used for interconnect in Si-based microelectronic devices. Recently Cu alloys instead of Cu have emerged as interconnect material for future microelectronic device fabrication because higher adhesion strength to foreign materials, larger resistance to electromigration, and improved electrical conductivity are required in very narrow interconnect lines. It is known that Cu-Ag alloy among Cu alloys has beneficial properties such as higher electrical conductivity, better formability, higher mechanical strength, and better resistance to electromigration than pure Cu. In this research, we investigate the effect of electrodeposition parameters on the nucleation and growth of Cu-Ag alloy nano-nuclei and the formation of thin, smooth Cu-Ag alloy thin film. Cu-Ag alloys are electrodeposited directly on W diffusion barrier without employing a Cu seed layer. Area density, size, and morphology of Cu-Ag alloy nano-nuclei influence the microstructure, surface roughness, and thickness of Cu-Ag alloy thin film formed on the W diffusion barrier. Sophisticated control of chemical equilibrium of electrolyte is carried out by managing the concentration and type of complexing agent and organic additives. Chelation behavior of Cu and Ag with complexing agent is also studied according to pH of electrolyte. Reduction rate and chemical composition of electrodeposited Cu-Ag alloy are controlled under diffusion-controlled deposition conditions.

Published

2015

3. Electrolytic Recovery of Cobalt from Hard Metal Scraps

Author

Bo Sung Seo, Seong-Ho Son, and Sunjung Kim

Abstract

not Available.

Published

2014

4. Study On Fundamental Aspects of Seedless Copper Electrodeposition On Diffusion Barriers in an Additive-Free Electrolyte for Silicon-Based Integrated Devices

Author

Sunjung Kim, Byoungyong Im, and Soo-Hyun Kim

Abstract

not Available.

Published

2013

5. Effect of Additives on Direct Copper Electrodeposition on Transition Metal Diffusion Barriers for Silicon-based Integrated Devices

Author

Byoungyong Im and Sunjung Kim

Abstract

not Available.

Published

2012

6. Synthesis of Copper-Based Metal Sponges with Open-Cell Structure by Electrochemical Process

Author

Sunjung Kim, Binh Ha Bui, Kyeongmi Kim, and Byoungyong Im

Abstract

not Available.

Published

2012

7. Electrodeposition of Cu-Co Alloy Substrates for Laser Lifted-Off Light Emitting Diodes

Author

Luda Lee and Sunjung Kim

Abstract

not Available.

Published

2010

8. Nucleation Study of Electrochemically Deposited Copper Directly on Tungsten Diffusion Barrier

Author

Kye-Sun Park and Sunjung Kim

Abstract

not Available.

Published

2010