International Confenrence
2019
40. Surface spectroscopic analysis of photocatalytic activities of Fe doped TiO2 nanoparticles in different pH conditions, H. Lee, VUVX19 (2019.07.01~2019.07.05)
2018
39. Spectroscopic Analysis of of Noble Metals doped TiO2 and ZnO Nanoparticles: Comparison of Catalytic Activities, S. Im, H. Lee, ECOSS34 (2018.08.26~08.31)
38. Insights into catalytic oxidation of Fe-doped ZrO2 nanoparticles with modified electronic structure: pH dependence, J. Hong, H. Lee, ECOSS34 (2018.08.26 ~ 08.31)
37. The pH dependent Relationship of Catalytic Performance of Fe doped SnO2 Nanoparticles, J. Bae, H. Lee,
ECOSS34 ( 2018.08.26 ~ 08.31)
36. The correaltion between the most photocatalytically active and least toxic metal doped ZnO nanoparticles
H. Lee, CCE-2018 (2018.02.19~02.21)
2017
35. Surface spectroscopic analysis for catalytic activity of TM doped TiO2 nanoparticles, H. Lee,
ECOSS 33 (2017.08.27~09.01)
34. Photocatalytic Performance and ELECTRONIC Structures of SnO2 Nanoparticles Modified Transition Metal doping, H. Lee, 2017 MRS (2017.04.17~04.21)
2016
33. Nitrogen Doping via NH3 Treatment as a Strategy for Increasing TiO2 Surface Defect Sites,
S. Yang, H. Lee, PSA-2016, (2016. 10.16~10.21)
32. PHOTO-OXIDATION ACTIVITIES DEPENDING ON METAL-DOPED TIO2 NANOPARTICLES,
H. Lee, ECOSS32 (2016. 8.28~9.2)
31. Coverage Dependent Adsorption Selectivity of Leucine and Tyrosine Adsorbed on the Cu(110) Surface,
H. Lee, S. Yang, IVC-20 (2016. 8.21~8.26)
30. Self-assembled Interlocking Chiral Structures of an Unnatural Amino Acid in a Single Domain,
S. Yang, A. Jeon, H. –S. Lee, H. Lee, IVC-20 (2016. 8.21~8.26)
29. STXM Study of Pd@TiO2 and NH3 doped Pd@TiO2 Nanoparticles, H. Lee, T. X. Tung, T. H. Yoon,
XRM 2016 (2016. 8.15~8. 19)
28. Photocatalytic Stabilities Depending on Structural Distortion of Metal-Doped TiO2 Nanoparticles,
Y. Kim, H. Lee, Nanokorea 2016, (2016.07.13~07.15)
27. Surface Hydrogen Induced CO2 Conversion Mechanism at Cu (775) Step Surface, Y. Kim, H. Lee,
ECOSS31 (2016. 08.31~09.05)
26. Microscopic and spectroscopic studies for the self-assembled 2D chiral honeycomb structures of unnatural amino acids on Au (111), S. Yang, H. Lee, ECOSS31 (2016. 08.31~09.05)
Domestic Conference
2019
66. Direct Observation of Site-specific Doping Behavior of Transition Metal in Metal Oxide NPs, H. Lee, 제130 차 물리화학 하계심포지엄 (2019.07.08~07.10)
65. Comparison Study of catalytic oxidation of Fe-doped ZrO2 nanoparticles:pH Modification, S. Im, H. Lee,
2019년 방사광 이용자 연구발표회 및 정기총회 (2019.11.22~11.23)
64. Direct Observation of Site-specific Doping Behavior of Transition Metal in Metal Oxide NPs, 제130차 물리 화학 하계심포지엄, H. Lee, 2019.07.08~07.10 (BUSAN)
2018
63. Comparison Study of catalytic oxidation of Fe-doped ZrO2 nanoparticles:pH Modification, 2018년 방사광 이용자 연구발표회 및 정기총회 (2018.11.22~2018.11.23)
62. The pH dependent relationship of catalytic performance of Fe doped SnO2 Nanoparticles, J. Bae, J. Hong, H. Lee, 제 54회 한국진공학회 (2018.02.07~02.09)
2017
61. comparison study of catalytic activity of rGO via transition metal doping strategy, J. Hong, J. Kim, H. Lee,
한국진공학회 (2017.08.16~08.18)
60. comparison study between most catalytic activity and least toxicity for metal doping ZnO nanoparticle
C. Yi, J. Bae, H. Lee, 한국진공학회 (2017.08.16~08.18)
59. Surface spectroscopic analysis for catalytic activity of TM doped IrO2 nanoparticles, J. Kim, C. Yi, J. Hong, H. Lee, 2017 korea-japan molecular science symposium (2017.07.10~07.12)
58. A study of transition metal doped IrO2 nanoparticles, J. Kim, H. Lee, 2017 방사광 이용자 연구발표회
(2017.11.23~11.24)