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Fabrication of submicron-sized metal patterns on a flexible polymer substrate by femtosecond laser sintering of metal nanoparticles

Cited 1 time in Web of Science Cited 1 time in Scopus
Authors

Son, Yong; Yeo, Junyeob; Ha, Cbeol Woo; Hong, Sukjoon; Ko, Seung Hwan; Yang, Dong-Yol

Issue Date
2012
Publisher
IEEE
Citation
2012 INTERNATIONAL CONFERENCE ON MANIPULATION, MANUFACTURING AND MEASUREMENT ON THE NANOSCALE (3M-NANO), pp.326-329
Abstract
The femtosecond laser sintering of metal nanoparticles was studied in order to fabricate submicron-sized metal patterns on flexible polymer substrates for various applications in the electronic and photonic industries. In this process, a mode-locked Ti:sapphirc laser beam was tightly focused on silver nanoparticles. To achieve a homogeneous dispersion of the silver nanoparticles, the nanoparticles were prepared using a two-phase reduction method wherein the silver nanoparticles were encapsulated by functional surfactants. The key advantage of the femtosecond laser sintering process is that it reduces the heat-affected zone during sintering, as the femtosecond (10(-15)s) laser pulse is shorter than the heat diffusion time (picosecond: 10(-12)s). Therefore, sintering of metal nanoparticles is limited to the laser focal spot and the thermal diffusion effect is suppressed, enabling the realization of submicron-sized metal patterns on flexible polymer substrates. Through this process, metal conductors with submicron-sized features and high conductivity were successfully fabricated. As demonstrated by the obtained results, the femtosecond laser sintering of metal nanoparticles is a novel process that offers direct, low-temperature, ultra-high-resolution results, and which will have numerous further applications in electronics and photonics.
ISSN
2373-5422
URI
https://hdl.handle.net/10371/207908
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Related Researcher

  • College of Engineering
  • Department of Mechanical Engineering
Research Area Laser Assisted Patterning, Liquid Crystal Elastomer, Stretchable Electronics, 로보틱스, 스마트 제조, 열공학

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