Introdcution of NDML
Nano-metallurgy
Researcher
Youngran Jung, Intae Kim, Hyeontae Kim
Research Area
Precise phase and structure control in nanoscale is crucial for practical implementation of nanomaterials. In the synthesis process where multiple components are involved, the most of difficulties about mass production and reproducibility are related to the lack of thermodynamic and kinetic predictability. Inspired by chemical metallurgy, an insight to solve the limitations in nanomaterial synthesis has been suggested in our group.
Semiconductor devices, Interconnect, Advanced packaging
Researcher
Hakjun Kim, Unggi Kim, Minseok Oh, Yoongu Lee, Jae Young Hwang, Hyunmin Park, Jaehee Sohn, Dayoung Lee, Sungbin Park, Hyunmin Lee, Jaemin Lim, Sohye Cho
Research Area
The performance of semiconductor devices improves everyday and its reliability should attend with performance. Improved device technology affects scale, internal stress, and new material exploration, thereby rising new reliability problems. Our group intensively research on reliability with unique tools such as massive electrical analysis for statistical life time prediction and thermal stress analysis in thin film level. Through these experimental facilities, we focus on atomic mass transport, noble material, and transition bulk to thin film, which is industrial friendly researches such as oxide semiconductors, device interconnect, printed electrodes, thermoelectric materials, and PcRAM.
Flexible Electronics
Researcher
Seongi Lee, Sungjae Choi
Research Area
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