학력
서울대학교 물리천문학부 - 이학박사 (PhD)
경력
서울대학교 물리천문학부 - 연구조교수
미국 표준과학기술연구소 (NIST) - 연구원
서울대학교 물리천문학부 - 박사후연구원
미국 표준과학기술연구소 (NIST) - 연구원
서울대학교 물리천문학부 - 박사후연구원
대표논문
1. Nanopipette/nanorod-combined quartz tuning fork–atomic force microscope, Sensors 19, 1794 (2019).
2. Direct Evidence for Curvature-Dependent Surface Tension in Capillary Condensation: Kelvin Equation at Molecular Scale, Phys. Rev. X 8, 041046 (2018) – 물리학과 첨단기술 소개 (2019년 3월호) 및 서울대학교 보도자료.
3. Adhesive force measurement of steady-state water nano-meniscus: Effective surface tension at nanoscale, Sci. Rep. 8, 8462 (2018).
4. Bifurcation-enhanced ultrahigh sensitivity of a buckled cantilever, Proc. Natl. Acad. Sci. USA 115(12), 2884-2889 (2018) – 물리학과 첨단기술 소개 (2018년 7/8월호) 및 서울대학교 보도자료.
5. Nanophotonic atomic force microscope transducers enable chemical composition and thermal conductivity measurements at the nanoscale, Nano Lett. 17(9), 5587-5594 (2017) - NanoWerk지 소개 (2017.9.1.일자) / NIST 보도 (2017.9.12.일자).
6. Nanoscale imaging and spectroscopy of band gap and defects in polycrystalline photovoltaic devices, Nanoscale 9, 7771-7780 (2017) - Cover paper.
7. Fabrication of scanning electrochemical microscopy-atomic force microscopy probes to image surface topography and reactivity at the nanoscale, Anal. Chem. 89, 2687−2691 (2017).
8. Probing nonlinear rheology layer-by-layer in interfacial hydration water, Proc. Natl. Acad. Sci. USA 112(51), 15619-15623 (2015).
9. Fabrication and Characterization of Au Nanoparticle-aggregated Nanowires by Using Nanomeniscus-induced Colloidal Stacking Method, Nano-Micro Lett. 7(1), 27-34 (2015).
10. Superwetting of TiO2 by light-induced water-layer growth via delocalized surface electrons”, Proc. Natl. Acad. Sci. USA 111(16), 5784-5789 (2014).
11. Unified Stress Tensor of the Hydration Water Layer”, Phys. Rev. Lett. 111, 246102 (2013).
12. Low-volume liquid delivery and nanolithography using a nanopipette combined with a quartz tuning fork-atomic force microscope, Nanoscale 4, 6493-6500 (2012).
13. Nanoneedle transistor-based sensors for the selective detection of intracellular calcium ions”, ACS Nano 5(5), 3888-3895, (2011).
https://scholar.google.com/citations?user=UiqHxNQAAAAJ&hl=ko
2. Direct Evidence for Curvature-Dependent Surface Tension in Capillary Condensation: Kelvin Equation at Molecular Scale, Phys. Rev. X 8, 041046 (2018) – 물리학과 첨단기술 소개 (2019년 3월호) 및 서울대학교 보도자료.
3. Adhesive force measurement of steady-state water nano-meniscus: Effective surface tension at nanoscale, Sci. Rep. 8, 8462 (2018).
4. Bifurcation-enhanced ultrahigh sensitivity of a buckled cantilever, Proc. Natl. Acad. Sci. USA 115(12), 2884-2889 (2018) – 물리학과 첨단기술 소개 (2018년 7/8월호) 및 서울대학교 보도자료.
5. Nanophotonic atomic force microscope transducers enable chemical composition and thermal conductivity measurements at the nanoscale, Nano Lett. 17(9), 5587-5594 (2017) - NanoWerk지 소개 (2017.9.1.일자) / NIST 보도 (2017.9.12.일자).
6. Nanoscale imaging and spectroscopy of band gap and defects in polycrystalline photovoltaic devices, Nanoscale 9, 7771-7780 (2017) - Cover paper.
7. Fabrication of scanning electrochemical microscopy-atomic force microscopy probes to image surface topography and reactivity at the nanoscale, Anal. Chem. 89, 2687−2691 (2017).
8. Probing nonlinear rheology layer-by-layer in interfacial hydration water, Proc. Natl. Acad. Sci. USA 112(51), 15619-15623 (2015).
9. Fabrication and Characterization of Au Nanoparticle-aggregated Nanowires by Using Nanomeniscus-induced Colloidal Stacking Method, Nano-Micro Lett. 7(1), 27-34 (2015).
10. Superwetting of TiO2 by light-induced water-layer growth via delocalized surface electrons”, Proc. Natl. Acad. Sci. USA 111(16), 5784-5789 (2014).
11. Unified Stress Tensor of the Hydration Water Layer”, Phys. Rev. Lett. 111, 246102 (2013).
12. Low-volume liquid delivery and nanolithography using a nanopipette combined with a quartz tuning fork-atomic force microscope, Nanoscale 4, 6493-6500 (2012).
13. Nanoneedle transistor-based sensors for the selective detection of intracellular calcium ions”, ACS Nano 5(5), 3888-3895, (2011).
https://scholar.google.com/citations?user=UiqHxNQAAAAJ&hl=ko