Journal

Publications Journal
  • [2025]

    S. Hong, A. Hussain, Y. Kwon, and D. Kim, "Development of laser powder bed fusion technology using consolidated powder formed by infrared heating as support structure", Optics & Laser Technology, Vol. 181, 112007 (2025. 02)

  • [2024]

    J. Lee, A. Hussain, J. Ha, Y. Kwon, R. Kim, H. Kim, and D. Kim "Mechanical properties of Ti-6Al-4V thin walls fabricated by laser powder bed fusion", Additive Manufacturing, Vol. 94, 104484 (2024.08)

  • [2024]

    J. Kim, J. Noh, and D. Kim "Simultaneous Laser Sintering and Embedding of Silver Nanoparticles for Highly Flexible Embedded Electrodes", Applied Surface Science, Vol. 657, 159738 (2024.06)

  • [2024]

    G. Hyun, H. Park, B. J. Lee, and D. Kim, "Lower size limit of particle removal in liquid-assisted laser cleaning", Applied Surface Science, Vol. 654, 159480 (2024.05)

  • [2023]

    X. Wang, B. Han, M. Ehrhardt, D. Kim, F. Zhang, J. Wang, P. Wang and S. Sun, "Optimizing Hole Shape and Improving Surface Quality of Inconel 718 Alloy by High-Temperature Chemical Assisted Laser Processing", Metals and Materials International (2023)

  • [2023]

    J. Ha, J. Noh, Y. J. Jung, W. Liang, T-Y. Choi, J. Kim and D. Kim, "High compaction and physical graphitization of cnt bundles and network via extreme-load compression using laser-induced shockwave", Carbon (2023)

  • [2022]

    J. Noh, J. Lee, Y. Seo, S. Hong, Y. Kwon, and D. Kim, “Dimensionless parameters to define process windows of selective laser melting process to fabricate three-dimensional metal structures”, Optics & Laser Technology (2022)

  • [2021]

    J. Noh and D. Kim, “Laser shock pressing of silver nanowires on flexible substrates to fabricate highly uniform transparent conductive electrode films”, Nanotechnology (2021)

  • [2021]

    J. Noh, Q. Bai, R. Shen, and D. Kim, “Laser-induced shock wave sintering of silver nanoparticles on flexible substrates”, Applied Surface Science (2021)

  • [2021]

    H. Shin*, J. Noh*, and D. KIM, “Bottom-up cutting method to maximize the edge strength in femtosecond laser ablation cutting of ultra thin glass”, Optics & Laser Technology (2021) (* equally contributed)

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