2024
255-24-03 Enhancing Li-Ion Battery Anodes: Synthesis, Characterization, and Electrochemical Performance of Crystalline C60 Nanorods with Controlled Morphology and Phase Transition,
L.Yin, D.Yang, I.Jeon, J.Seo, H.Chen, M.S.Kang, M.J.Park, and C.-R.Cho*,
ACS Applied Materials & Interfaces, accepted (2024).
254-24-02 Enhanced electrochemical performance and interdiffusion behavior of sodium ions in onion-derived freeze-dried and KOH-activated carbon for sodium-ion battery anodes,
I.Jeon, T.Kim, J.-W.Seo, I.-K.Jeong, J.H.Lee, M.Park, Y.Park, D.Yang, and C.-R.Cho*,
Applied Surface Science 648, 159023 (2024).
253-24-01 Electrochemical behavior of Ag nanoparticle-incorporated Li4Ti5O12 nanofibers as Li-ion battery anodes under visible light exposure,
H.Yang, D.Yang, I.Jeon, D.Yadav, J.-W.Seo, and C.-R.Cho*,
Applied Surface Science 645, 158858 (2024).
2023
252-23-04 Molecular engineering of N-rich ZIF-integrated graphene composite interface for efficient physiochemical confinement and catalytic conversion of polysulfides in lithium-sulfur batteries,
S.Chae, S.H.Kim, T.Lee, H.Kang, Y.J.Kwon, G.M.Choi, W.S.Heo, J.B.Park, J.-O.Kim, T.Kwon, B.J.Kim, C.-R.Cho, J.-W.Park, S.G.Lee, K.Y.Cho, and, J.H.Lee,
Composites Part B: Engineering 267, 111050 (2023).
251-23-03 Low-index facets polyhedron-shaped binary cerium titanium oxide for high-voltage aqueous zinc-vanadium redox flow batteries,
J.Choi, J.Park, J.Park, M.Kim, S.Lee, C.-R.Cho, J.H.Lee, Y.Park, M.G.Kim, J.Choi, J.-W.Park, and M.Park,
ACS Applied Materials & Interface 15(48), 55692-55702 (2023).
I.Jeon, D.Yang, D.Yadav, J.-W.Seo, H.W.Zhang, L.H.Yin, H.S. Ahn, and C.-R.Cho*,
Electrochimica Acta 439, 141730 (2023).
249-23-01 Growth of hexagonal germanium microcrystal using Al-based nanostructures,
K.H.Kim, I.Jeon, H.S.Ahn, M.Yang, Y.T.Chun, S.N.Yi, J.H.Lee, C.-R.Cho, S.-W.Kim,
New Physics 73(2), 97-107 (2023).
2022
248-22-03 Excellent high-rate capability and long cycle stability of FeS@NCG nanofibers for sodium-ion battery anodes,
D.Yang, D.Yadav, I.Jeon, J.-W.Seo, S.-Y.Jeong, and C.-R.Cho*,
ACS Applied Materials & Interfaces 14, 44303-44316 (2022).
247-22-02 In situ electrochemical impedance measurements of α-Fe2O3 nanofibers: Unravelling the Li-ion conduction mechanism in Li-ion batteries,
J.Hwang, D.Yadav, H.Yang, I.Jeon, D.Yang, J.-W.Seo, M.Kang, S.-Y.Jeong, and C.-R.Cho*,
Batteries 8, 44 (2022).
246-22-01 Flat-surface-assisted and self-regulated oxidation resistance of Cu(111),
S.J.Kim, Y.I.Kim, B. Lamichhane, Y.-H.Kim, Y.Lee, C.-R.Cho, M.Cheon, J.C.Kim, H.Y.Jeong, T.Ha, J.Kim, Y.H.Lee, S.-G.Kim, Y.-M.Kim, and S.-Y.Jeong,
Nature 603, 434-438 (2022). https://doi.org/10.1038/s41586-021-04375-5
2021
245-21-04 (Back Cover) Abnormally high-lithium storage in pure crystalline C60 nanoparticles,
L.Yin, J.Cho, S.J.Kim, I.Jeon, I.Jeon, M.Park, M.Park, S.Y.Jeong, D.H.Lee, D.-H.Seo, and C.-R.Cho*,
Advanced Materials 2104763 (2021). DOI: 10.1002/adma.202104763
244-21-03 Color of copper/copper oxide,
S.J.Kim, S.Kim, J.Lee, Y.Jo, Y.-S.Seo, M.Lee, Y.Lee, C.-R.Cho, J.Kim, M.Cheon, J.Hwang, Y.I.Kim, Y.-H.Kim, Y.-M.Kim, A.Soon, M.Choi, W.S.Choi, and S.-Y.Jeong,
Advanced Materials 2007345 (2021). DOI: 10.1002/adma.202007345
243-21-02 Enhanced electrochemical performance of peony flower-like carbon-coated γ-Ga2O3 nanosheets for lithium-ion battery anodes,
I.Jeon, J.H.Hwang, T.K.Kim, L.Yin, H.W.Lee, J.P.Kim, H.S.Ahn, and C.-R.Cho*,
J. Ceram. Proc. Res. 20(2),192-199 (2021).
242-21-01 Silicon nanoparticle self-incorporated in hollow nitrogen-doped carbon microspheres for lithium-ion battery anodes,
L.Yin, M.Park, I.Jeon, J.H.Hwang, J.P.Kim, H.W.Lee, M.Park, S.Y.Jeong, and C.-R.Cho*,
Electrochimica Acta 368, 137630 (2021).
2020
241-20-05 Growth mechanism and characterization of AlN microspheres by HVPE method, K.H.Kim, J.H.Park, H.S.Ahn, M.Yang, S.N.Yi, H.S.Ahn, I.Jeon, C.-R.Cho, H.Jeon, S.-W.Kim,
New Physics 70(9), 738-744 (2020).
240-20-04 Growth of a thick AlN epilayer by using the mixed-source hydride vapor phase epitaxy method,
K.H.Kim, J.H.Park, H.S.Ahn, M.Yang, S.N.Yi, I.Jeon, C.-R.Cho, and S.-W.Kim,
Journal of the Korean Physical Society 77(4) 282-287 (2020).
239-20-03 Properties of AlN epilayer grown on 6H-SiC substrate by mixed-source HVPE method,
J.H.Park, K.H.Kim, I.Jeon, H.S.Ahn, M.Yang. S.N.Yi, C.-R.Cho, and S.-W.Kim,
Journal of the Korean Crystal Growth and Crystal Technology 30(3) 96-102 (2020).
238-20-02 Enhanced electrochemical performance of vertically grown WS2 layers on TiNb2O7 nanostructures for lithium-ion battery anodes,
L.Yin, D.Pham-Cong, I.Jeon, J.P.Kim, J.Cho, S.Y.Jeong, H.W.Lee, and C.-R.Cho*,
Chemical Engineering Journal 382, 122800 (2020) https://doi.org/10.1016/j.cej.2019.122800
237-20-01 Wafer-scale high-quality Ag thin film using a ZnO buffer layer for plasmonic applications,
B.G.Jung, M.Cheon, S.J.Kim, A.Gliserin, S.H.Chew, C.-R.Cho, S.G.Kim, Y.H.Lee, S.Kim, and S.Y.Jeong,
Applied Surface Science 512, 145705 (2020).
2019
236-19-07
235-19-06 Lithium attachment to C60 and nitrogen- and boron-doped C60: A mechanistic study,
Y.Chen, C.-R.Cho, and S.Manzhos,
Materials 12
234-19-05 Growth of AlN epilayers on sapphire substrates by using the mixed-source hydride vapor phase epitaxy method,
I.Jeon, G.S.Lee, K.H.Kim, H.S.Ahn, M.Yang, S.N.Yi, H.Jeon, C.-R.Cho, and S.W.Kim,
Journal of the Korean Physical Society 74(12), 1160-1165 (2019).
233-19-04 Inverse Stranski–Krastanov growth in single-crystalline sputtered Cu thin films for wafer-scale device applications,
S.Lee, H.Y.Park, S.J.Kim, H.Lee, I.J.Lee, C.-R.Cho, E.Lee, S.Y.Jeong, and Y.H.Lee,
ACS Applied Nano Materials 2, 3300-3306 (2019).
232-19-03 Effects of Al2O3 addition on nanocrystal formation and crystallization kinetics in (1-x)Li2B4O7-xAl2O3 glasses,
H.W.Choi, S.J.Kim, H.Yang, Y.S.Yang, Y.H.Rim, and C.-R.Cho*,
Journal Ceramic Processing Research 20(1), 63-68 (2019).
231-19-02. Enhanced lithium storage by ZnFe2O4 nanofibers as anode materials for lithium-ion battery,
Y.J.Gao, L.H.Yin, S.J.Kim, H.Yang, I.Jeon, J.P.Kim, S.Y.Jeong, H.W.Lee, and C.-R.Cho*,
Electrochimica Acta. 296, 565-574 (2019).
230-19-01. Rice-panicle-like γ-Fe2O3@C nanofibers as high-rate anodes for superior lithium-ion
batteries,
L.H.Yin, Y.J.Gao, I.J.Jeon, H.Yang, J.P.Kim, S.Y.Jeong, and C.-R.Cho*,
Chemical Engineering Journal 356, 60-68 (2019).
2018
229-18-06. A study on the synthesis and electrochemical characteristics of carbonized coffee powder for lithium ion battery anode,
T.G.Kim, J.H.Cho, D.Pham-Cong, I.Jeon, J.H.Hwang, K.H.Kim, and C.-R.Cho*,
New Physics 68(12), 1315-1323 (2018).
228-18-05. Electrode-evaporation method of III-nitride vertical-type single chip LEDs,
K.H.Kim, H.S.Ahn, J.Jeon, C.-R.Cho, H.Jeon, M.Yang, S.N.Yi, and S.W.Kim,
Journal of the Korean Physical Society 73(9), 1346-1350 (2018).
227-18-04. Characteristics of copper microspheres grown by using mixed-source hydride vapor-phase epitaxy,
K.H.Kim, J.H.Ahn, H.S.Ahn, M.Yang, S.N.Yi, I.Jeon, C.-R.Cho, H.Jeon, J.H.Lee, H.S.Lee, S.W.Kim,
New Physics 68(10), 1052-1058 (2018).
226-18-03. A study of the density of states of ZnCoO:H from resistivity measurements,
M.Cheon, Y.Cho, C.H.Park, C.-R.Cho, and S.Y.Jeong,
RSC Advances 8, 9895-9900 (2018).
225-18-02. Enhanced cycle stability of iron (II, III) oxide nanoparticles encapsulated with nitrogen-doped carbon and graphene framworks for lithium battery anodes,
D.Pham-Cong, S.J.Kim, S.Y.Jeong, J.P.Kim, H.G.Kim, P.V.Braun, and C.-R.Cho*,
Carbon 129, 621-630 (2018).
224-18-01. Effective charge separation in site-isolated Pt-nanodot deposited PbTiO3 nanotube arrays for enhanced photoelectrochemical water splitting,
C.W.Ahn, P.H.Borse, J.H.Kim, J.Y.Kim, J.S.Jang, C.R.Cho, J.H.Yoon, B.S.Lee, J.S.Bae, H.G.Kim, and J.S.Lee,
Applied Catalysis B: Environment 224, 804-809 (2018).
2017
223-17-05. Formation of ferromagnetic Co-H-Co complex and spin-polarized conduction band in Co-doped ZnO,
S.Lee, J.H.Park, B.S.Kim, D.Y.Cho, Y.N.Choi, T.W.Lee, W.K.Kim, D.Kim, C.R.Cho, C.Moriyoshi, C.Park, Y.Kuroiwa, and S.Y.Jeong,
Scientific Reports 7, 11101 (2017).
222-17-04. Enhanced cycle stability of silicon nanoparticles coated with nitrogen-doped carbon layer for lithium-ion battery anode,
H.S.Choi, S.J.Kim, H.W.Choi, C.E.Park, Y.J.Gao, Y.Hang, S.Y.Jeong, J.Kim, J.S.Bae, and C.R.Cho*,
Current Applied Physics 17, 1087-1093 (2017).
221-17-03. Electrochemical behavior of interconnected Ti2Nb10O29 single crystallities for high-power Li-ion battery anodes,
D.Pham-Cong, J.Kim, V.T.Tran, S.J.Kim, S.Y.Jeong, J.H.Choi, and C.R.Cho*,
Electrochimica Acta 236, 451-459 (2017).
220-17-02. Synergistically enhanced electrochemical performance of hierarchical MoS2/TiNb2O7 hetero-nanostructures as anode materials for Li-ion batteries,
D.Pham-Cong, J.H.Choi, J.Yun, A.S.Bandarenka, J.Kim, P.V.Braun, S.Y.Jeong, and C.R.Cho*,
ACS Nano 11(1), 1026-1033 (2017).
219-17-01. Enhanced cycle stability of polypyrrole-derived nitrogen-doped carbon-coated tin oxide hollow nanofibers for lithium battery anodes,
De Pham-Cong, Jung Soo Park, Jae Hyun Kim, Jinwoo Kim, Paul V. Braun, Jun Hee Choi, Su Jae Kim, Se Young Jeong, and C.R.Cho*,
Carbon 111, 28-37 (2017)
2016
218-16-07. Gate voltage-dependent magnetoresistance of Zn0.8Co0.2O:H,
M.Cheon, Y.C.Cho, C.R.Cho, C.H.Park, and S.Y.Jeong,
RSC Advances 6, 97555-57559 (2016).
217-16-06. Magnetic domains in H-mediated Zn0.9Co0.1O microdisk arrays,
W.-K.Kim, M.Cheon, S.Lee, T.-W.Lee, J.J.Park, C.R.Cho, C.H.Park, I.Takeuchi, and S.Y.Jeong,
RSC Advances 6, 57375-57379 (2016).
216-16-05. Individually carbon-coated and electrostatic-force-derived graphene-oxide- wrapped lithium titanium oxide nanofibers as anode material for lithium-ion batteries,
J.Kim, J.Y.Kim, D.Pham-Cong, S.Y.Jeong, J.Chang, J.H.Choi, P.V.Braun, and C.R.Cho*,
Electrochimica Acta 199, 35-44 (2016)
215-16-04. [Cover] Heteroepitaxial growth of GaN on unconventional templates and layer-transfer techniques for large-area flexible/stretchable light-emitting diodes,
J.H.Choi, J.Kim, H.Yoo, J.Liu, S.Kim, C.W.Baik, C.R.Cho, J.G.Kang, M.Kim, P.V.Braun, S.Hwang, and T.S.Jung,
Advanced Optical Materials 4(4), 505-521 (2016).
214-16-03. TiO2 nanofiber/nanoparticles composite photoelectrodes with improved light harvesting ability for dye-sensitized solar cells,
H.H.T.Vu, T.S.Atabaev, D.Pham-Cong, M.A.Hossain, D.Lee, N.N.Dinh, C.R.Cho, H.K.Kim, and Y.H.Hwang,
Electrochimica Acta 193, 166-171 (2016).
213-16-02. Bandgap-designed TiO2/SnO2 hollow hierarchical nanofibers: synthesis, properties, and their photocatalytic mechanism,
K.Ahn, D.Pham-Cong, H.S.Choi, S.Y.Jeong, J.H.Cho, J.Kim, J.P.Kim, J.S.Bae, and C.R.Cho*,
Current Applied Physics 16, 251-260 (2016).
212-16-01. Physical properties of as-prepared and post-annealed TiO2 layers by atomic layer deposition and their cell performance,
M.J.Kim, K.Ahn, H.S.Choi, D.Pham-Cong, Y.J.Gao, J.H.Cho, C.U.Park, and C.R.Cho*,
Journal of the Korean Physical Society 68(2),243-250 (2016).
2015
211-15-07. Enhanced electrochemical performance of carbon-coated TiO2 nanobarbed fibers as anode material for lithium-ion batteries,
D.Pham-Cong, J.H.Kim, S.Y.Jeong, J.H.Choi, J.Kim, and C.R.Cho*,
Electrochemistry Communications 60, 204-207 (2015).
210-15-06. [Frontispiece] Template-directed directionally solidified 3D mesostructured AgCl-KCl eutectic photonic crystals,
J.Kim, L.K.Aagesen, J.H.Choi, J.Choi, H.S.Kim, J.Liu, C.R.Cho, J.G.Kang, A.Ramazani, K.Thornton, and P.V.Braun,
Advanced Materials 27(31), 4551-4559 (2015).
209-15-05. Cu mesh for flexible transparent conductive electrodes,
W.K.Kim, S.Lee, D.H.Lee, I.H.Park, J.S.Bae, T.W.Lee, J.Y.Kim, J.H.Park, Y.C.Cho, C.R.Cho, and S.Y.Jeong,
Scientific Reports 5, 10715(1-8) (2015).
208-15-04. Enhanced electrochemical performance of template-free carbon-coated iron(II, III) oxide hollow nanofibers as anode material for lithium-ion batteries,
M.E.Im, D.Pham-Cong, J.Y.Kim, H.S.Choi, J.H.Kim, J.P.Kim, J.Kim, S.Y.Jeong, and C.R.Cho*,
Journal of Power Sources 284(15), 392-399 (2015).
207-15-03. Conductive framework supported SnO2 hollow nanofibers with high performance for lithium battery anodes,
D.Pham-Cong, J.Y.Kim, J.S.Park, J.H.Kim, J.P.Kim, E.D.Jeong, J.Kim, S.Y.Jeong, and C.R.Cho*,
Electrochimica Acta 161, 1-9 (2015).
206-15-02. Annealing dependence of solution-processed ultra-thin ZrOx films for gate dielectric applications,
G.X.Liu, A. Liu, Y. Meng, F.K.Shan, B.C.Shin, W.J.Lee and C.R.Cho,
J. Nanosci. Nanotechnol. 15(3), 2185-2191 (2015).
205-15-01. Efficiencies of dye-sensitized solar cells with hollow SnO2 nanofiber/TiO2 nanoparticle composite photoanodes,
J.H.Lee, K.Ahn, S.H.Kim. S.Y.Jeong, J.S.Bae, T.E.Hong, H.G.Kim, and C.R.Cho*,
J. Nanosci. Nanotechnol. 15(1), 244-247 (2015).
2014
204-14-10. Effects of hydrogen plasma treatment on the electrical behavior of solution-processed ZnO transistor, Y.Jeong, C.Pearson, M.Wilson, J.P.Badyal, Y.U.Lee, K.Ahn, C.R.Cho, J.Hwang, H.Kim, L.M.Do, and M.C.Petty, J. Appl. Phys. 116, 074509(2014).
203-14-09. Fabrication of ZnCoO nanowires and characterization of their magnetic properties, B.S.Kim, S.Lee, W.K.Kim, J.H.Park, Y.C.Cho, J.Kim, C.R.Cho, and S.Y.Jeong, Nanoscale Research Letters 9, 221 (2014).
202-14-08. Abnormal drop in electrical resistivity with impurity doping of single-crystal Ag, J.Y.Kim, M.W.Oh, S.Lee, Y.C.Cho, J.H.Yoon, G.W.Lee, C.R.Cho, C.H.Park, and S.Y.Jeong, Scientific Reports 4, 54501-5 (2014).
201-14-07. Biofield-effect protein-sensor: plasma functionalization of polyaniline, protein immobilization, and sensing mechanism, C.R.Cho, H.U.Lee, K.Ahn, S.Y.Jeong, J.H.Choi, J.Kim, and J. Cho, Appl. Phys. Lett. 104, 233701-5 (2014).
200-14-06. Low operating voltage InGaZnO thin-film transistors based on Al2O3 high-k dielectrics fabricated using pulsed laser deposition, G.Z.Geng, G.X.Liu, Q.Zhang, F.K.Shan, W.J.Lee, B.C.Shin, and C.R.Cho, J. Kor. Phys. Soc. 64(10), 1437-1440 (2014).
199-14-05. Effects of Al doping on the magnetic properties of ZnCoO and ZnCoO:H, J.H.Park, S.Lee, B.S.Kim, W.K.Kim, Y.C.Cho,M.W.Oh, C.R.Cho, and S.Y.Jeong, Appl. Phys. Lett. 104(5), 052412-052414 (2014).
198-14-04. Hydrogen lithography for nanomagnetic domain on Co-doped ZnO using an anodic aluminum oxide template, S.Lee,W.K.Kim, Y.C.Cho, B.S.Kim, J.H.Park, C.W.Lee, Y.Lee, S.Lee, S.Fackler, I.Takeuchi, C.R.Cho, and S.Y.Jeong, Appl. Phys. Lett.104, 052405 (2014).
197-14-03. Thickness effect of the TiO2 nanofiber scattering layer on the performance of the TiO2 nanoparticle/TiO2 nanofiber-structured dye-sensitized solar cells, J.H.Lee, K.Ahn, S.H.Kim, J.M.Kim, S.Y.Jeong, J.S.Jin, E.D.Jeong, and C.R.Cho, Current Applied Physics 14, 856-861 (2014).
196-14-02. Cathodic performance of V2O5 nanowires and reduced graphene oxide composites for lithium ion batteries, D.Pham-Cong, K.Ahn, S.W.Hong, S.Y.Jeong, J.H.Choi, C.H.Doh, J.S.Jin, E.D.Jeong, and C.R.Cho, Curr. Appl. Phys. 14, 215-221 (2014).
195-14-01. Enhancement of adhesion between polyphenylene sulfide and copper by surface treatments, J.Y.Kim, K.Ahn, S.Y.Jeong, E.D.Jeong, J.S.Jin, J.S.Bae, H.G.Kim, and C.R.Cho, Curr. Appl. Phys. 14, 118-121 (2014).
2013
194-13-05. Optical properties of hierarchical-nanostructured TiO2 and its time-dependent photo-degradation of gaseous acetaldehyde, K.Ahn, M.S.Kim, S.H.Kim, J.H.Kim, S.Y.Jeong, J.P.Kim, J.S.Jin, and C.R.Cho, Appl. Phys. Lett. 103, 261903 (2013).
193-13-04. High-performance InTiZnO thin-film transistors deposited by magnetron sputtering, A.Liu. G.X.Liu, F.K.Shan, H.H.Zhu, H.Y.Tan, B.C.Shin, W.J.Lee, and C.R.Cho, Chin. Phys. Lett. 30(12), 127301 (2013).
192-13-03. Origin of the ferromagnetism in ZnCoO from chemical reaction of Co3O4, S.Lee, B.S.Kim, Y.C.Cho, J.M.Shin,S.W.Seo, C.R.Cho, I.Takeuchi, and S.Y.Jeong, Current Appl. Phys. 13, 2005-2009 (2013).
191-13-02. The effect of hydrogen on the electric properties of amorphous InGaZnO with varying Zn content, W.K.Kim, J.E.Jeong, J.H.Park, Y.C.Cho, S.Lee, S.Y.Jeong, C.R.Cho, J.S.Bae, J. Korean Phys. Soc. 63(2), 209-213 (2013).
190-13-01. Enhanced tunability of transparent epitaxial Ba0.5Sr0.5TiO3/Ga2O3/GaN structures fabricated by pulsed laser deposition, S.A.Lee, J.Y.Hwang, K.Ahn, S.Y.Jeong, J.M.Kim, J.P.Kim, S.G.Yoon, C.R.Cho, Thin Solid Films 527, 45-49 (2012).
2012
189-12-19. Dual-scale artificial lotus leaf fabricated by fully nonlithographic simple approach based on sandblasting and anodic aluminum oxidation techniques, S.J.Kim, T.H.Kim, J.H.Kong, Y.Kim, C.R.Cho, S.H.Kim, D.W.Lee, J.K.Park, D.Lee, J.M.Kim, Appl. Surf. Sci. 263, 648-654 (2012).
188-12-18. Improved photolysis of water from Ti incorporated double perovskite Sr2FeNbO6 lattice, P.H.Borse, C.R.Cho, S.M.Yu, J.H.Yoon, T.E.Hong, J.S.Bae, E.D.Jeong, H.G.Kim, Bull. Korean Chem. Soc. 33(10), 3407-3412 (2012).
187-12-17. Formation kinetics of crystalline Ti1-xCrxO2 photocatalyst from its amorphous powder, E.D.Jeong, S.M.Yu, J.H.Yoon, J.S.Bae, T.E.Hong, C.R.Cho, K.T.Lim, P.H.Borse, H.G.Kim, J. Ceramic Processing Research 13(6), 672-676(2012).
186-12-16. The co-dopant concentration depenence on visible light photocatalytic efficiency in SrTi1-xFex/2Crx/2O3(0.01
185-12-15. Synthesis of SrFe12O19 and Sr7Fe10O22 systems for visible light photocatalytic studies, R.Dom, P.H.Borse, C.R.Cho, J.S.Lee, S.M.Yu, J.H.Yoon, T.E.Hong, E.D.Jeong, H.G.Kim, J. Ceramic Processing Research 13(4),451-456(2012).
184-12-14. Efficient visible light photocatalysis in cubic Sr2FeNbO6, E.D.Jeong, S.M.Yu, J.Y.Yoon, J.S.Bae, C.R.Cho, K.T.Lim, R.Dom, P.H.Borse, H.G.Kim, J. Ceramic Processing Research 13(3),305-309(2012).
183-12-13. Ferromagnetism by Co cluster or by hydrogen mediated Co-H-Co complex in ZnCoO: How do we avoid the formation of Co metal cluster?, S.J.Kim, S.Y.Cha, J.Y.Kim, J.M.Shin, Y.C.Cho, S.Lee, W.K.Kim, S.Y.Jeong, Y.S.Yang, C.R.Cho, H.W.Choi, M.H.Jung, B.-E.Jun, K.-Y.Kwon, Y.Kuroiwa, C.Moriyoshi, J. Phys. Chem. C 116, 12196-12202(2012).
182-12-12. Physical properties of epitaxial Zn1–xCuxO films fabricated by pulsed laser deposition, K.Ahn, F.Shan, J.M.Kim, S.Y.Jeong, C.R.Cho, J.P.Kim, J.S.Jin, H.G.Kim, J. Korean Phys. Soc. 60(9),1424-1427 (2012).
181-12-11. Conductive and ferromagnetic contributions of H in ZnCoO using H2 hot isostatic pressure, Y.C.Cho, S.Lee, H.H.Nahm, S.J.Kim, C.H.Park, S.Y.Lee, S.K.Kim, C.R.Cho, H.Koinuma, and S.Y.Jeong, Appl. Phys. Lett. 100(11), 24031-24034(2012).
180-12-10. Chemical bonding states and atomic distribution within Zn(S,O) films prepared on CIGS/Mo/glass substrates by using chemical bath deposition, K.Ahn, J.H.Jeon, S.Y.Jeong, J.M.Kim, H.S.Ahn, J.P.Kim, E.D.Jeong, and C.R.Cho, Current Applied Physics 12, 1465-1469(2012).
179-12-9. Plasma treatment effect on dye-sensitized solar cell efficiency of hydrothermal-processed TiO2 nanorods, K.Ahn, H.U.Lee, S.Y.Jeong, J.P.Kim, J.S.Jin, H.S.Ahn, H.S.Kim, and C.R.Cho, J. Nanosci. Nonotech. 12, 6022-6025(2012).
178-12-8. Aero-sol–gel synthesis and photovoltaic properties of mesoporous TiO2 nanoparticles, J.Y.Ahn, H.K.Cheon, W.D.Kim, Y.J.Kang, J.M.Kim, D.W.Lee, C.R.Cho, Y.H.Hwang, H.S.Park, J.W.Kang, and S.H.Kim, Chemical Engineering Journal 188, 216-221(2012).
177-12-7. Ferromagnetic spin ordering in amorphous Co-doped InGaZnO based on the Co-H-Co complex, S.Lee, W.K.Kim, Y.C.Cho, S.W.Seo, J.S.Bae, C.R.Cho, H.Koinuma, and S.Y.Jeong, Europhys. Lett. 98, 17008(2012).
176-12-6. Strong magnetism in Pt-coated ZnCoO: The role of interstitial hydrogen, J.M.Shin, H.S.Lee, S.Y.Cha, S.Lee, J.Y.Kim, N.Park, Y.C.Cho, S.J.Kim, S.K.Kim, J.S.Bae, S.Park, C.R.Cho, H.Koinuma, and S.Y.Jeong, Appl. Phys. Lett. 100, 172409(2012).
175-12-5. A study of the correlation between hydrogen content and magnetism in ZnCoO, S.Lee, B.S.Kim, S.W.Seo, Y.C.Cho, S.K.Kim, J.P.Kim, I.K.Jeong, C.R.Cho, C.U.Jung, H.Koinuma, and S.Y.Jeong, J. Appl. Phys. 111(7),c3041-c3043(2012).
174-12-4. Effect of reactive gas in atmospheric plasma for dye adsorption on ZnO nanorods, D.Pham-Cong, K.Ahn, J.M.Kim, S.Y.Jeong, C.R.Cho, J.P.Kim, H.G.Kim, H.S.Ahn, H.S.Kim, J. Kor. Phys. Soc. 60(7),1052-1055(2012).
173-12-3. Improving the precision of Hall effect measurements using a single-crystal copper probe, S.Y.Cha, J.M.Shin, S.J.Kim, S.E.Park, C.R.Cho, Y.C.Cho, and S.Y.Jeong, Review of Scientific Instruments 83, 013901/1-5 (2012).
172-12-2. Comparision of Zn2TiO4 and rutile TiO2 photocatalysts for H2 production under UV and near-visible light irradiation, P.H.Borse, C.R.Cho, K.T.Lim, T.E.Hong, E.D.Jeong, J.H.Yoon, S.M.Yu, and H.G.Kim, J. Ceramic Processing Research 13(1),42-46(2012).
171-12-1. Fabrication of the best conductor from single-crystal copper and the contribution of grain boundaries to the Debye temperature, M.Ajmal, S.Lee, Y.C.Cho, S.J.Kim, S.E.Park, C.R.Cho, and S.Y.Jeong, CrystEngComm. 14, 1463 (2012).
2011
170-11-21. Metal-ion dependent band energetics in SrM0.5Ti0.5O3 (M=Ru, Rh, Ir, Pt, Pd) like structures for solar applications, E.D.Jeong, J.S.Jin, H.J.Kim, T.E.Hong, C.R.Cho, K.T.Lim, H.G.Kim, and P.H.Borse J. Ceram. Proc. Res. 12(6),712-715 (2011).
169-11-20. Effect of co-dopant ratio (Cr/Fe) on visible light photocatalytic activity of Cr-Fe co-doped TiO2 nanoparticles, P.H.Borse, C.R.Cho, K.T.Lim, J.S.Bae, E.D.Jeong, T.E.Hong, H.J.Kim, and H.G.Kim J. Ceram. Proc. Res. 12(5), 592-598(2011).
168-11-19. Effect of plasma treatment on surface chemical-bonding states and electrical properties of polyacrylonitrile nanofibers, Y.H.Kang, K.Ahn, S.Y.Jeong, J.S.Bae, J.S.Jin, H.G.Kim, S.W.Hong, and C.R.Cho, Thin Solid Films 519(20), 7090-7094 (2011).
167-11-18. Effect of plasma treatment on chemical bonding states of porous TiO2 thin films prepared from polymer-blended solution, J.P.Kim, H.U.Lee, J.E.Yang, J.S.Bae, E.S.Pak, J.H.Yoon, J.M.Kim, and C.R.Cho, Thin Solid Films 519(20), 6916-6919 (2011).
166-11-17. Enhanced photocatalytic activity of TiO2-incorporated nanofiber membrane by oxygen plasma treatment, S.Y.Park, H.U.Lee, K.Ahn, J.P.Kim, J.S.Jin, J.Lee, S.Y.Jeong, and C.R.Cho, Thin Solid Films 519(20), 6899-6902 (2011).
165-11-16. Improved cell viability of biocompatible nutrient-contained polymeric nanofibers, H.U.Lee, S.Y.Park, Y.H.Kang, S.Y.Jeong, S.H.Choi, Y.Y.Jahng, G.H.Chung, M.B.Kim, and C.R.Cho, J. Nanosci. Nanotech. 11(8), 7100-7103 (2011).
164-11-15. Effects of TiO2 nanorod length and post-annealing on the electrical properties of TiO2 nanobarbed fiber structures, K.Ahn, H.U.Lee, Y.M.Jeong, J.P.Kim, S.Y.Jeong, and C.R.Cho, J. Nanosci. Nanotech. 11(8), 7155-7158 (2011).
163-11-14. Ratio dependence of the visible light photocatalytic efficiency for Zn2Ti0.9CryFe[0.1-y]O4: Cr/Fe(0.02
162-11-13. Inclined-walled regular micro-pillar-arrayed surfaces covered entirely with an alumina nanowire forest and their improved superhydrophobicity, D.H.Kim, Y.Kim, J.W,Kang, S.W.Hong, D.Lee, C.R.Cho, S.H.Kim, D.W.Lee, and J.M.Kim, J. Micromech. Microeng. 21(7), 50241-50249 (2011).
161-11-12. Experimental and theoretical evaluation of wettability on micro/nano hierarchically engineered surfaces based on robust micro-post-arrayed- and highly ordered nano-rippled-structures, D.H.Kim, Y.Kim, S.H.Hwang, Y.S.Bang, C.R.Cho, Y.K.Kim, and J.M.Kim, Appl. Surf. Sci. 257(21), 8985-8992 (2011).
160-11-11. Synthesis of Barium Ferrite for visible light photocatalysis applications, P.H.Borse, C.R.Cho, K.T.Lim, Y.J.Lee, T.E.Hong, J.S.Bae, E.D.Jeong, H.J.Kim, and H.G.Kim, J. Korean Phys. Soc. 58(6), 1672-1676 (2011).
159-11-10. Simple fabrication of p-type Mn-doped ZnO thin films by using only Ar working-pressure control, S.Y.Cha, S.J.Kim, J.M.Shin, C.R.Cho, Y.C.Cho, S.Y.Jeong, J.S.Bae J. Korean Phys. Soc. 58(5), 1160-1163 (2011).
158-11-9. Long-term aging characteristics of atmospheric-plasma-treated poly ε-carprolactone films and fibers, H.U.Lee, Y.H.Kang, S.Y.Jeong, K.N.Koh, J.P.Kim, J.S.Bae, C.R.Cho, Polymer Degradation and Stability 96, 1204-1209 (2011).
157-11-8. 성장 온도에 따른 Cu(In,Ga)Se2 광흡수층의 물리적 특성 및 깊이 조성 분석, 안 균, 정용민, 강윤희, Pham-Cong De, 조채용, 안형수, 이삼녕, 새물리 61(5), 515-520 (2011).
156-11-7. ZnO nanobarbed fibers: fabrication, sensing NO2 gas, and their sensing mechanism, H.U.Lee, K. Ahn, S.J.Lee, J.P.Kim, H.G.Kim, S.Y.Jeong, and C.R.Cho, Appl. Phys. Lett. 98(19), 193114/1-4 (2011).
155-11-6. Uniform superhydrophobic surfaces using micro/nano complex structures formed spontaneously by a simple and cost-effective nonlithographic process based on anodic aluminum oxide technology, D.H.Kim, Y.Kim, B.M.Kim, J.S.Ko, C.R.Cho, and J.-M. Kim, J. Micromech. Microeng. 21(4), 045003/1-8 (2011).
154-11-5. Contribution of Pt layer to hydrogen mediation in ZnCoO, J.M.Shin, Y.C.Cho, S.Y.Cha, S.Lee, S.J.Kim, S.K.Kim, S.Park, C.R.Cho, and S.Y.Jeong, Phys. Status Solidi A: Applications and Materials Science, 208(5), 1027-1030 (2011).
153-11-4. Stable high conductive amorphous InGaZnO driven by hydrogenation using hot isostatic pressing, W.K.Kim, S.Lee, H.Koinuma, S.Y.Jeong, Y.C.Cho, J.M.Shin, C.R.Cho, J.S.Bae, T.Y.Kim, and S.K.Park, Appl. Phys. Lett. 98(12), 122019/1-3 (2011).
152-11-3. Fabrication of the CuInGaSe pellet and characterization of the thin film, H.S.Jeon, A.R.Lee, G.S.Lee, D.W.Jo, J.E.Ok, K.H.Kim, M.Yang, S.N.Yi, H.S.Ahn, C.R.Cho, S.W.Kim, and H.J.Ha, Jpn. J. Appl. Phys. 50(1), 01AG01/1-4 (2011).
151-11-2. Characterization of the InGaN/GaN multi-quantum-wells light-emitting diode grown on patterned sapphire substrate with wide electro- luminescence spectrum, A.R.Lee, H.Jeon, G.S.Lee, J.E.Ok, D.W.Jo, K.H.Kim, S.N.Yi, M.Yang, H.S.Ahn, C.R.Cho,S.W.Kim, J.H.Lee, and H.J.Ha, Jpn. J. Appl. Phys. 50(1), 01AD06/1-4 (2011).
150-11-1. Physicochemical properties and enhanced cellular responses of biocompatible polymeric scaffolds treated with atmospheric pressure plasma using O2 gas, H.U.Lee, S.Y.Park, Y.H.Kang, S.Y.Jeong, S.H.Choi, Y.Y.Jahng, G.H.Chung, M.B.Kim, and C.R.Cho, Materials Science & Engineering C 31(3), 688-696 (2011).
2010
149-10-16. 상온 자성 반도체는 실현 불가능한가?, 조용찬, 정세영, 이승훈, 김원경, 김수재, 신종문, 차수영, 이현준, 조채용,새물리 60(12), 1231-1246 (2010).
148-10-15. Enhanced photocatalytic activity of TiO2 nanobarbed fibers treated with atmospheric pressure plasma using O2 gas, H.U.Lee, K.Ahn, S.Y.Jeong, C.R.Cho, J.P.Kim, J.S.Bae, H.G.Kim, S.H.Kwon, and H.W.Lee, Appl. Phys. Lett. 97(22), 223111 (2010).
147-10-14. Low resistivity ITO thin films deposited by NCD technique at low temperature: variation of tin concentration, S.V.Pammi, A.Chanda, J.K.Ahn, J.H.Park, C.R.Cho, W.J.Lee, and S.G.Yoon, J. Electrochem. Soc., 157(10), H937-H941 (2010).
146-10-13. Polarization asymmetry and optical modal gain saturation via carrier-photon interaction in ZnO, B. Kim, H. Kim, S. Park, K. Kyhm, and C.R.Cho, Appl. Phys. Lett. 97(4), 041115 (2010).
145-10-12. 나노니들 구조위에 형성된 GaN 에피층의 결정학적 특성, 최윤정, 신민정, 전헌수, 안형수, 장지호, 이삼녕, 최석철, 이상걸, 안균, 조채용, 새물리 60(9), 1050-1054 (2010).
144-10-11. 혼합소스 방법에 의해 성장된 HVPE-LED의 특성, 이아름, 전헌수, 김은주, 이강수, 옥진은, 조동완, 김경화, 양민, 이삼녕, 안형수, 조채용, 김석환, 하홍주, 새물리 60(5), 511-516 (2010).
143-10-10. Photocatalytic performance of nanocrystalline Bi5Ti3FeO15 layered perovskite under visible light, J.S.Jang, P.H.Borse, J.S.Lee, K. T.Lim, C.R.Cho, E.D.Jeong, M.G.Ha, M.S.W, H.G.Kim, J. Nanosci. Nanotech. 10, 5008-5014 (2010).
142-10-9. Copper better than silver: Electrical resistivity of the grain-free single crystal copper wire, Y.C.Cho, S.Lee, M.Ajimal, W.K.Kim, C.R.Cho, S.Y.Jeong, J.H.Park, S.E.Park, S.Park, H.K.Park, H.C.Kim, Cryst. Growth and Design 10(6), 2780-2784 (2010).
141-10-8. Comparison of the structural, magnetic, electronic, and optical properties for ZnCoO and co-precipitation samples,S.J.Kim, Y.C.Cho, S.J.Kim, S.H.Lee, W.K.Kim, S.Y.Jeong, C.R.Cho, J.S.Bae, S. Park, I.K.Jeong, J. Korean Phys. Soc. 56(4), 1374-1377 (2010).
140-10-7. Extrinsic ferromagnitism in ZnMnO nanocrystals fabricated by using the sol-gel method, W.K.Kim, S.Lee, S.Y.Jeong, S.J.Kim, Y.C.Cho, C.R.Cho, J.S.Bae, J. Korean Phys. Soc. 56(1), 472-475 (2010).
139-10-6. Physical properties of hydrogenated Al-doped ZnO thin layer treated by atmospheric plasma with oxygen gas, K.Ahn, Y.S.Jeong, H.U.Lee, S.Y.Jeong, H.S.Ahn, H.S.Kim, S.G.Yoon and C.R.Cho, Thin Solid Films 518, 4066-4070 (2010).
138-10-5. Characteristics of low-temperature-annealed ZnO-TFTs, Jun-Je Kim, J.H.Lee, J.Y.Bak, H.S.Kim, N.W.Jang, W.J.Lee, and C.R.Cho, J. Korean Phys. Soc. 56(1), 404-408 (2010).
137-10-4. Dependence of the diode characteristics of n-ZnO/p-Si (111) on the Si substrate doping, J.H.Lee, J.Y.Lee, J.J.Kim, H.S.Kim, N.W.Jang, W.J.Lee, and C.R.Cho, J. Korean Phys. Soc. 56(1), 429-433 (2010).
136-10-3. Optical and dielectric properties of transparent epitaxial GdVO4 /n-GaN/sapphire heterostructure, Y.S.Jeong, K.Ahn, S.Y.Jeong, S.G.Yoon, H.G.Kim, J.P.Kim, H.S.Ahn, H.S.Kim, and C.R.Cho, Jpn. J. Appl. Phys. 49, 041101(2010).
135-10-2. Surface modification and selective protein attachment on flexible micro-array pattern by using atmospheric plasma with reactive gas, H.U.Lee, S.Y.Park, Y.H.Kang, S.Y.Jeong, S.H.Choi, K.Y.Jahng, C.R.Cho, Acta Biomaterialia 6(2), 519-525 (2010).
134-10-1. Polarization Dependence of the Optical Modal Gain in ZnO, B.J.Kim, K.Kyhm, and C.R.Cho, J. Korean Phys. Soc. 56, 351-355 (2010).
2009
133-09-18. Surface plasmon resonance investigation of a copolymer containing spiroxazine, H. Chen, J.B.Lee, C.R.Cho, S.H.Kim, J.H.Kim, K.N.Koh, J. Nanosci. Nanotechnol. 9(12), 7195-7198 (2009).
132-09-17. Synthesis of nanocrystalline ZnFe2O4 by polymerized complex method for its visible light photocatalytic application: An efficient photo-oxidant, J.S.Jang, P.H.Borse, J.S.Lee, O.S.Jung, C.R.Cho, E.D.Jeong, M.G.Ha, M.S.Won, H.G.Kim, Bull. Korean. Chem. Soc. 30(8), 1738 (2009).
131-09-16. Modal optical gain and cavity mode analysis of unstructured and optically structured ZnO nanocrystalline thin films, R.Sharma, B.J.Kim, C.R.Cho, and K.Kyhm, J. Physics D: Appl. Phys. 42, 135421 (2009).
130-09-15. Reversible ferromagnetic spin ordering governed by hydrogen in Co-doped ZnO semiconductor, Y.C.Cho, S.J.Kim, S.H.Lee, S.J.Kim, C.R.Cho, H.H.Nahm, C.H.Park, I.K.Jeong, S.K.Park, T.E.Hong, S.Kuroda, and S.Y.Jeong, Appl. Phys. Lett. 95(17), 172514(1-3) (2009).
129-09-14. Reproducible manipulation of spin ordering in ZnCoO nanocrystals by hydrogen mediation, S.H.Lee, Y.C.Cho, S.J.Kim, C.R.Cho, S.Y.Jeong, J.P.Kim, Y.N.Choi, and J.M.Sur, Appl. Phys. Lett. 94, 212507 (2009).
128-09-13. Structural phase variation of InGaN micro-structures grown by using mixed source HVPE, C.H.Lee, S.L.Hwang, H.S.Jeon, S.H.Hong, I.H.Heo, Y.H.Han, E.J.Kim, K.H.Kim, H.Ha, H.S.Ahn, M.Yang, S.W.Kim, and C.R.Cho, J. Korean Phys. Soc.54(3), 1257-1261 (2009).
127-09-12. 저 함량의 In이 도핑된 n-ZnO:In/p-Si(111) 이종접합 구조 다이오우드의 특성연구, 장보라, 이주영, 이종훈, 김준제, 김홍승, 이원재, 조채용, 새물리 58(4), 507-511 (2009).
126-09-11. Characteristics of ZnO films deposited on plastic substrates at various RF sputtering powers, J,J.Kim, J.H.Lee, J.Y.Lee, D.J.Lee, B.R.Jang, H.S.Kim, W.J.Lee, C.R.Cho, J.H.Kim, J. Korean Phys. Soc. 55(5), 1910-1914 (2009).
125-09-10. RF 스퍼터의 power 변화에 따른 플라스틱 기판 위에 증착된 ZnO 박막의 특성 연구, 김준제, 박준용, 김홍승, 이원재, 조채용, 새물리 58(4), 471-476 (2009).
124-09-9. 혼합소스 HVPE에 의한 비형광체 백색 LED의 성장과 광 특성, 김은주, 전헌수, 홍상현, 한영훈, 이아름, 김경화, 양민, 하홍주, 안형수, 황성령, 조채용, 김석환, 한국결정성장학회지 19(2), 61-65 (2009).
123-09-8. Physical and optical properties of nanocrystalline calcium ferrite synthesized by the polymerized complex method, E.D.Jeong, P.H.Borse, J.S.Jang, J.S.Lee, C.R.Cho, J.S.Bae, S.Park, O.S.Jung, S.M.Ryu, M.S.Won, and H.G.Kim, J. Nanosci. Nanotechnol. 9(6), 3568-3573 (2009).
122-09-7. The conversion of wettability in transparent conducting Al-doped ZnO thin film, Y.C.Cho, S.Y.Cha, J.M.Shin, J.H.Park, S.E.Park, C.R.Cho, S.Park, H.K.Pak, S.Y.Jeong, and A.R.Kim, Solid State. Commun. 149, 609-611 (2009).
121-09-6. Thermal annealing effect on the diode characteristics of n-ZnO/p-Si (111), J.H. Lee, J.Y.Lee, J.J.Kim, H.S.Kim, N.W.Jang, H.K.Cho and, C.R.Cho, J. Korean Phys. Soc. 54(2), 901-905 (2009).
120-09-5. Heteroepitaxal relation and optical properties of Cu-doped ZnO films grown by pulased laser deposition, J.H.Jeon, K.Ahn, S.A.Lee, S.Y.Jeong, W.J.Lee, H.S.Ahn, H.S.Kim and C.R.Cho, J. Korean Phys. Soc. 54(2), 858-862 (2009).
119-09-4. Enhanced Electrical and Optical Properties of Atmospheric-Plasma- Treated Al-Doped ZnO Thin Films with Hydrogen Gas, Y.S.Jeong, H.U.Lee, K.Ahn, J.H.Jeon, S.Y.Jeong, W.J.Lee, and C.R.Cho, J. Korean Phys. Soc. 54(2), 944-949 (2009).
118-09-3. Surface properties and cell response of fluoridated-hydroxyapatite film coated on Ti substrate, H.U.Lee, Y.S.Jeong, S.Y.Park, S.Y.Jeong, H.G.Kim, and C.R.Cho, Current Appl. Phys. 9(1), 528-533 (2009).
117-09-2. Contribution of power on cell adhesion using atmospheric dielectric barrier discharge (DBD) plasma system, H.U.Lee, Y.S.Jeong, K.N.Koh, S.Y.Jeong, J.S.Bae, and C.R.Cho, Current Appl. Phys. 9(1), 219-223 (2009).
116-09-1. Annealing effect of platinum-based electrode on physical properties of PZT thin films, Y.S.Jeong, H.U.Lee, S.A.Lee, J.P.Kim, H.G.Kim, S.Y.Jeong, and C.R.Cho, Current Appl. Phys. 9(1), 115-119 (2009).
2008
115-08-4. Effect of deposition temperature on Al0.016In0.003Zn0.981O thin films grown on glass substrates by pulsed laser deposition, C.J.Xian, S.G.Yoon, W.J.Lee and C.R.Cho, J. of The Electrochemical Society, 155(10) H786-H790 (2008).
114-08-3. Spectroscopic study on diffusion phenomenon of thermally annealed Pt/TiOx electrode, S.A.Lee, Y.S.Jeong, S.Y.Jeong, C.R.Cho, H.S.Ahn, H.S.Kim, and W.J.Lee, Integrated Ferroelectrics 96(1), 60-68 (2008).
113-08-2. Role of reactive gas in atmospheric plasma for cell attachment and proliferation on biocompatible poly ε-caprolactone film, H.U.Lee, Y.S.Jeong, S.Y.Jeong, S.Y.Park, J.S.Bae, H.G.Kim, and C.R.Cho, Applied Surface Science 254(18), 5700-5705 (2008.7.15).
112-08-1. Electrical properties and surface characterization of transparent Al-doped ZnO thin films prepared by pulsed laser deposition, J.P.Kim, S.A.Lee, J.S.Bae, S.K.Park, U.C.Choi, and C.R.Cho, Thin Solid Films 516, 5223-5226 (2008.05.25).
2007
111-07-5. A study of transparent conductive aluminum-doped zinc oxide fabricated on the flexible polyethersulphone (PES) substrate, J.H.Park, Y.C.Cho, J.M.Shin, S.Y.Cha, S.Y.Jeong, C.R.Cho, H.S.Kim, S.J.Yoon, S.E.Park, A.R.Lim, J. Korean Phys. Soc.51(6), 1968-1972 (2007.12).
110-07-4. UV-Light Irradiation Effect on Room-Temperature-Processed ZnO/p-Si, Y.J.Kang, C.R.Cho, S.Y.Jeong, H.S.Kim, and H.S.Ahn, J. Korean Phys. Soc. 51, S115-S119 (2007.11).
109-07-3. Growth temperature dependence of Ga2O3 thin films deposited by plasma enhanced atomic layer deposition, G.X.Liu, F.K.Shan, W.J.Lee, B.C.Shin, S.C.Kim, H.S.Kim, and C.R.Cho, Integrated Ferroelectrics 94, 1-10 (2007.11).
108-07-2. High-temperature ferromagnetism in amorphous semiconductor Ge3Mn thin films, S.K.Kim, Y.C.Cho, S.Y.Jeong, C.R.Cho, S.E.Park, J.H.Lee, J.P.Kim, Y.C.Kim, and H.W.Choi, Appl. Phys. Lett. 90(18), 192505 (2007.05).
107-07-1. Magnetism depending on carrier in (Zn,Co)O, H.J.Lee, H.H.Nam, Y.C.Cho, S.K.Kim, C.H.Park, C.R.Cho, and S.Y.Jeong,Europhys. Lett. 78, 17001 (2007.03).
2006
106-06-16. Hetero-epitaxial growth of LiNbO3 thin film on GaN/Al2O3 by pulsed laser deposition, Y.J.Kang, S.Y.Jeong, S.A.Lee, J.Y.Hwang, J.P.Kim, and C.R.Cho, J. Korean Phys. Soc. 49, S625-S628 (2006.02).
105-06-15. Their properties of artificially textured (Ba0.5Sr0.5)TiO3 thin film prepared by pulsed laser deposition, J.Y.Hwang, J.S.Bae, S.A.Lee, S.Y.Jeong, and C.R.Cho, J. Korean Phys. Soc. 49, S621-S624 (2006.02).
104-06-14. Structural and photoluminescent properties of S-doped ZnGa2O4:Mn2+ thin film phosphors grown on various substrates by pulsed laser deposition, J.S.Bae, J.P.Kim, U.C.Choi, C.R.Cho, J.H.Jeong, and S.S.Yi, J. Korean Phys. Soc. 49, S616-S620 (2006.02)
103-06-13. Deposition-temperature effects on AZO thin films prepared by RF magnetron sputtering and their physical properties, J.H.Park, J.M.Shin, S.Y.Cha, J.W.Park, S.Y.Jeong, H.K.Park, and C.R.Cho, J. Korean Phys. Soc. 49, S584-S588 (2006.12)
102-06-12. Thermodynamic and structural characterization of high- and low-temperature nitinol, S.Y.Cha, S.Y.Jeong, J.H.Park, S.E.Park, J.K.Park, and C.R.Cho, J. Korean Phys. Soc. 49, S580-S583 (2006.12).
101-06-11. Growth and magnetic properties of Ge1-xMnx single crystals. S.K.Kim, S.E.Park, Y.C.Cho, C.R.Cho, and S.Y.Jeong, J. Korean Phys. Soc. 49, S518-S522 (2006.02).
100-06-10. Hydrogen-induced ferromagnetism in ZnCoO, H.J.Lee, C.H.Park, S.Y.Jeong, K.J.Lee, C.R.Cho, M.H.Jung, D.J.Chadi, Appl. Phys. Lett. 88(6), 2504-1~2504-3 (2006.02).
99-06-9. Room temperature ferromagnetism in highly-resistive Ni-doped TiO2, J.H.Cho, T.J.Hwang, Y.G.Joh, E.C.Kim, D.H.Kim, K.J.Lee, H.W.Park, H.C.Ri, J.P.Kim and C.R.Cho, Appl. Phys. Lett. 88(9), 2505-1~2505-3 (2006.03).
98-06-8. Transparent titanium dioxide thin film deposited by plasma-enhanced atomic layer deposition, G.X.Liu, F.K.Shan, W.J.Lee, G.H.Lee, I.S.Kim, B.C.Shin, S.G.Yoon and C.R.Cho, Integra. Ferroelectrics, 81, 239-248 (2006.01).
97-06-7. Growth and doping of AlGaN and electroluminescence of SAG-InGaN/AlGaN heterostructure by mixed-source HVPE. K.H.Kim, H.S.Ahn, M.Yang, K.S.Kang, S.L.Hwang, W.J.Choi, C.R.Cho, S.W.Kim, Y.Honda, M.Yamaguchi, N.Sawaki, J.Yoo, S.M.Lee and M.Koike, Physica Status Solidi (c), 3(6), 1461-1465 (2006.05).
96-06-6. Growth of cubic GaN on a nitride AlGaAs(001) substrate by using hydride vapor phase epitaxy, H.L.Lee, M.Yang, H.S.Ahn, K.H.Kim, J.Y.Yi, K.S.Jang, J.H.Chang, H.S.Kim, C.R.Cho and S.W.Kim, J. Korean Phys. Soc. 48(2), 266-270 (2006.02).
95-06-5. Temperature-dependent fatigue rate in ferroelectric Bi3.25La0.75Ti3O12 thin films, J.Y.Hwang, S.A.Lee, S.Y.Jeong and C.R.Cho, Europhys. Lett. 76(1), 88-94 (2006.08).
94-06-4. Intrinsic ferromagnetic properties of Ti0.94Fe0.06O2/Ti0.94Mn0.06O2 superlattice films for dilute magnetic semiconductor applications, N.J.Seong, S.G.Yoon, Y.H.Jo, M.H.Jung, C.R.Cho, J.M.Yang, D.J.Park, J.W.Lee and J.Y.Lee, Appl. Phys. Lett. 89(16), 2109-1~2109-3 (2006.10).
93-06-3. Dielectric characterization of transparent epitaxial Ga2O3 thin film on n-GaN/Al2O3 prepared by pulsed laser deposition, S.A.Lee, J.Y.Hwang, J.P.Kim, C.R.Cho, M.S.Jang and S.Y.Jeong, Appl. Phys. Lett. 89(18), 29061-29063 (2006.11).
92-06-2. Physical properties of Mn-doped Bi3.65La0.47Ti3O12 crystals, J.P.Kim, S.A.Lee, J.Y.Hwang, J.P.Kim, S.Y.Jeong and C.R.Cho, Integrated Ferroelectrics 79, 55-62 (2006.1).
91-06-1. A study on spin injection of ferromagnetic electrode for OLED application. Sung-Jin Kim, H.J.Lee, S.K.Kim, C.R.Cho and S.Y.Jeong, Advances in Science and Technology, 52, 98-103 (2006).
2005
90-05-19. Doping of GaN, AlGaN by mixed-source HVPE, J.Y.Yi, K.H.Kim, H.J. Lee, M.Yang, H.S.Ahn, C.R.Cho, S.W.Kim, Y.Honda, M.Yamaguchi, N. Sawaki, Compound Semiconductors 2004, proceedings 184, 373-376 (2005).
89-05-18. Growth of AlGaN on Al2O3 substrates by mixed-source HVPE, K.H.Kim, J.Y.Yi, H.J. Lee, M.Yang, H.S.Ahn, C.R.Cho, S.W.Kim, Y.Honda, M.Yamaguchi, N. Sawaki, Compound Semiconductors 2004, proceedings 184, 361-364 (2005).
88-05-17. Growth of thick AlGaN by mixed-source hydride vapor phase epitaxy, K.H.Kim, J.Y.Yi, H.J.Lee, M.Yang, H.S.Ahn, C.R.Cho, S.W.Kim, S.C.Lee, Y.Honda, M.Yamaguchi, N.Sawaki, Appl. Surf. Sci. 243, 178-182 (2005).
87-05-16. A Study of Ferroelectric Properties in NaxK1-xNbO3 Ceramic Compounds, D.H.Cho, M.K.Ryu, S.S.Park, S.Y.Cho, J.G.Choi, M.S.Jang, J.P.Kim and C.R.Cho, J. Kor. Phys. Soc. 46(1), 151-154 (2005).
86-05-15. A Study of the SrBi2Nb2O9 capacitor on flexible polymer substrate, S.S.Park, M.K.Ryu, D.H.Cho, M.S.Jang, J.P.Kim and C.R.Cho, J. Kor. Phys. Soc. 46(1), 277-280 (2005).
85-05-14. X-ray Photoelectron Spectroscopy study of magnetic tunnel junctions, H.J.Lee, S.Y.Jeong, C.R.Cho, J.H.Lee, S.J.Joo, K.H.Shin, B.C.Lee, T.S.Kim, J.H.Park, J.S.Kang, K.Rhie, J. Appl. Phys. 97, 33906(1-5) (2005).
84-05-13. Surface characterization of electrochemically fabricated CuO doped ZnO thin film, J.H.Yoon, Y.B.Shim, C.R.Cho and M.S.Won, Key Eng. Materials, 277-279, 972-976 (2005).
83-05-12. HVPE에 의한 AlGaN 성장과 특성, 김경화, 이정윤, 이호준, 장근숙, 양민, 안형수, 조채룡, 김종필, 김석환, 최원진, 조인성, 새물리, 50(3), 175-179, (2005).
82-05-11. Growth and ferroelectric characterization of Ce-modified bismuth titanate thin film deposited on GaN substrate by pulsed laser deposition, J.Y.Hwang, C.R.Cho, S.A.Lee, S.Y.Jeong and S.G.Yoon, Integrated Ferroelectrics, 66, 253-260 (2005).
81-05-10. Influence of impurities on the structural and magnetic properties in ZnO, H.J.Lee, S.K.Kim and C.R.Cho J. Kor. Phys. Soc. 46, S34-38 (2005).
80-05-9. Chemical bonding states and interface reaction of TiO2:Co thin films according to the annealing conditions, J.P.Kim, C.R.Cho, J.H.Cho, D.H.Kim and S.Y.Jeong, J. Kor. Phys. Soc.47, S263-266 (2005).
79-05-8. Epitaxial growth and structural characterization of transparent conducting ZnO:Al thin film deposited on GaN substarte by RF magnetron sputtering,J.Y.Hwang, C.R.Cho, S.A.Lee and S.Y.Jeong, J. Kor. Phys. Soc. 47, S288-291 (2005).
78-05-7. Metal/Insulator/Semiconductor structure using Ga2O3 layer by plasma enhanced atomic layer deposition, S.A.Lee, J.Y.Hwang, J.P.Kim, C.R.Cho and S.Y.Jeong, J. Kor. Phys. Soc. 47, S292-295 (2005).
77-05-6. Rapid thermal annealing effect of Al-doped ZnO thin films, W.J.Lee, C.R.Cho, K.M.Cho and S.Y.Jeong, J. Kor. Phys. Soc. 47, S296-299 (2005).
76-05-5. Structure of ferroelastic domain and thermoelastic effect in Lead Phosphate single crystal, H.J.Lee, Y.C.Cho, S.E.Park, S.K.Kim, C.R.Cho and S.Y.Jeong, J. Kor. Phys. Soc. 47, S340-344 (2005).
75-05-4. The formation of precipitates in the ZnCoO system, H.J.Lee, S.W.Choi, C.R.Cho, H.K.Kim and S.Y.Jeong, Europhysics Letters, 72(1), 76-82 (2005).
74-05-3. Thermoelastic effect induced by the ferroelastic domain switching, Y.C.Cho, S.E.Park, C.R.Cho and S.Y.Jeong, Appl. Phys. Lett. 87, 161914/1-3 (2005).
73-05-2. Dielectric characterization of Metal-Oxide-Semiconductor capacitor using Ga2O3 dielectrics on p-Si (100), S.A.Lee, S.Y.Jeong, C.R.Cho, J.Y.Hwang, J.P.Kim and M.K.Ha, Integrated Ferroelectrics, 74, 173-180 (2005).
72-05-1. Czochralski법을 이용한 금속단결정의 성장과 구조적, 전기적 성질에 관한 연구, 박정훈, 차수영, 박상언, 김성규, 조채룡, 박혁규, 김형찬, 정명화, 정세영, Korean J. Crystallography, 16(2), (2005).
2004
71-04-19. UV-exposure effect on ferroelectricity of the sol-gel processed PZT thin film, J.Y.Hwang, S.A.Lee, C.R.Cho and S.Y.Jeong, Integrated Ferroelectrics, 62, 97-103 (2004).
70-04-18. Effect of CoTiO3 formation on the magnetic properties of Co-doped TiO2 rutile, Y.G.Joh, H.D.Kim, B.Y.Kim, S.I.Woo, S H.Moon, J.H.Cho, E.C.Kim and D.H.Kim, C.R.Cho, J. Kor. Phys. Soc. 44(2), 360-364 (2004).
69-04-17. Raman scattering behaviors of GaN single crystal grown by a Na flux method, S.E. Park, C.R.Cho, Y.C.Cho and S.Y.Jeong, Jpn. J. Appl. Phys. 43(3), 894-896 (2004).
68-04-16. The characteristics of a mosaic monochromator with a Cu single crystal, S.K.Kim, S.A.Kim, Y.S.Han, C.H.Lee, S.Y.Jeong and C.R.Cho, Key Engineering Materials, 270-273, 1387-1391 (2004).
67-04-15. A study of magnetic and optical properties of Cu-doped ZnO, H.J.Lee, B.S.Kim, C.R.Cho and S.Y.Jeong, Phys. Stat. Sol. (b), 241(7), 1533-1536 (2004).
66-04-14. Enhanced ferromagnetism in Co-doped TiO2 powders, J.H.Cho, B.Y.Kim, H.D.Kim, S.I.Woo, S.H.Moon, J.P.Kim, C.R.Cho, Y.G.Joh, E.C.Kim and D.H.Kim, Phys. Stat. Sol. (b), 241(7), 1537-1540 (2004).
65-04-13. Rutile 상의 TiO2 나노분말 합성 및 물성분석, 김성진, 정세영, 이현준, 이상아, 김종필, 조채룡, 새물리, 48(6), 541-545 (2004).
64-04-12. AlGaN 성장을 위한 Hydride Vapor Phase Epitaxy 방법, 김경화, 이정윤, 이호준, 양민, 안형수, 이삼녕, 장지호, 김홍승, 조채룡, 이상칠, 김석환, 새물리, 48(6), 546-549 (2004).
63-04-11. The structural and optical behaviors of K-doped ZnO/Al2O3(0001) films, S.K.Kim, S.A.Kim, C.H.Lee, H.J.Lee, S.Y.Jeong and C.R.Cho, Appl. Phys. Lett. 85(3), 419-421 (2004).
62-04-10. A study of UV-photolysis effects on ferroelectricity in PZT thin films, S.A.Lee, S.Y.Jeong, J.Y.Hwang, J.P.Kim and C.R.Cho, Integrated Ferroelectrics, 64, 201-206 (2004).
61-04-9. Structural properties and phase transitions of Bi4-xLaxTi3O12 crystals, J.P.Kim, J.Y.Hwang, C.R.Cho, Y.C.Cho, M.S.Jang and S.Y.Jeong, Integrated Ferroelectrics, 67, 117-124 (2004).
60-04-8. A study of magnetic clusters in Co-doped ZnO using neutron scattering, H.J.Lee, G.H.Ryu, S.K.Kim, S.A.Kim, C.H.Lee, S.Y.Jeong and C.R.Cho, Phys. Stat. Sol.(b), 241(12), 2858-2861 (2004).
59-04-7. Growth of thick AlGaN by metalorganic-hybride vapor phase epitaxy, K.H.Kim, J.Y.Lee, H.J.Lee, M.Yang, H.S.Ahn, C.R.Cho, S.W.Kim, S.C.Lee, Y.Honda, M.Yamaguchi and N.Sawaki, Phys. Stat. Sol.(c), 1(10), 2474-2477 (2004).
58-04-6. Growth of epitaxially twinned ferroelectric Bi3.75La0.25Ti3O12(028) thin film on GaN substrate, J.Y.Hwang, C.R.Cho, and S.Y.Jeong, J. Cryst. Growth, 271(1), 50-54 (2004).
57-04-5. Ferroelectric properties of Mn-doped BLT thin films prepared under different annealing conditions, J.P.Kim, J.Y.Hwang, C.R.Cho, M.K.Ryu, M.S.Jang and S.Y.Jeong, Jpn. J. Appl. Phys, 43(9B), 6590-6593 (2004).
56-04-4. High resolution elemental and magnetic distribution mapping and chemical bonding states of Co:TiO2 films: A SAM, MFM and XPS study, C.R.Cho, J.P.Kim, J.Y.Hwang, S.Y.Jeong, Y.G.Joh and D.H.Kim, Jpn. J. Appl. Phys. 43(10B), L1323-L1326 (2004).
55-04-3. Ferromagnetism of heteroepitaxial Zn1-xCuxO films grown on n-GaN substrates, C.R.Cho, J.Y.Hwang, J.P.Kim, S.Y.Jeong, M.S.Jang, W.J.Lee and D.H.Kim, Jpn. J. Appl. Phys. 43(11A), L1383-L1386 (2004).
54-04-2. Growth and characterization of (Ba0.5Sr0.5)TiO3 films epitaxially grown on (002) GaN/(0006) Al2O3 electrode, C.R.Cho, J.P.Kim, J.Y.Hwang, S.Y.Jeong, S.G.Yoon and W.J.Lee, Jpn. J. Appl. Phys. 43(11A), L1425-L1428 (2004).
53-04-1. Heteroepitaxial growth and ferro-electricity of Bi3.75La0.25Ti3O12 films on n-GaN/Al2O3 (0001) substrates prepared by pulsed laser deposition, C.R.Cho, J.Y.Hwang, J.P.Kim, S.Y.Jeong and B.H.Park Jpn. J. Appl. Phys. 43(11A), 7626-7626 (2004).
2003
52-03-6. Structural reconstruction of hexagonal to cubic ZnO films on Pt/Ti/SiO2/Si substrate by annealing, S.K.Kim, S.Y.Jeong, and C.R.Cho, Appl. Phys. Lett. 82(4), 562-564 (2003).
51-03-5. Growth and impurity study of GaN single crystal grown by Na flux, S.E.Park, C.R.Cho, S.K.Kim, and S.Y.Jeong, J. Kor. Phys. Soc. 42, S161-164 (2003).
50-03-4. Ferroelectric and dielectric behaviors of PLZT/PZT multi-layered thin films prepared by Sol-Gel method, J.Y.Hwang, S.Y.Jeong, and C.R.Cho, J. Kor. Phys. Soc. 42, S1093-1096 (2003).
49-03-3. Crystal structures and ferroelectric properties of La-doped Bi4Ti3O12 crystals, J.P.Kim, C.R.Cho, S.H.Lee, M.K.Ryu and M.S.Jang, J. Kor. Phys. Soc. 42, 240-243 (2003).
48-03-2. 유기금속 화학 기상 증착법으로 제조된 자성반도체 Ti1-xCoxO2 박막의 Co 조성변화에 따른 미세구조 및 자기적 특성, 오영남, 조채룡, 윤순길, 한국재료학회지, 13(11), 737-741 (2003).
47-03-1. Ferromagnetism in Li co-doped ZnO:Cr, H.J.Lee, S.Y.Jeong, J.Y.Hwang and C.R.Cho, Europhysics Letters, 64(6), 797-802 (2003).
2002
46-02-8. Effects of Co-doping level on the micro- structural and ferromagnetic properties of liquid-delivery metal-organic-chemical-vapor-deposited Ti1-xCoxO2 thin films, N.J.Seong, S.G.Yoon and C.R.Cho, Appl. Phys. Lett. 81(22), 4209-4211 (2002).
45-02-7. Study of diluted magnetic semiconductor: Co-doped ZnO, H.J.Lee, S.Y.Jeong, C.R.Cho and C.H.Park, Appl. Phys. Lett.81(21), 4020-4022 (2002).
44-02-6. Structural study of the intermediate phase of the ferroelastic Pb3(PO4)2 crystal, Y.C.Cho, H.J.Lee, S.E.Park, C.R.Cho and S.Y.Jeong, Phys. Rev. B66, 184103-1 ~184105 (2002).
43-02-5. Room temperature ferromagnetism in Cr-doped GaN single crystals, S.E.Park, H.J.Lee, Y.C.Cho, S.Y.Jeong, C.R.Cho and S.L.Cho, Appl. Phys. Lett. 80(22), 4187-4189 (2002).
42-02-4. Properties of superconducting MgB2 single crystal grown by a modified flux method, Y.C.Cho, S.E.Park, S.Y.Jeong, C.R.Cho, B.J.Kim, Y.C.Kim and H.S.Yoon, Appl. Phys. Lett. 80(19), 3569-3571 (2002).
41-02-3. Effects of discommensurations(DC) in the C-IC transition of [N(CH3)4]2ZnCl4, Y.C.Cho, K.H.Yoon, Y.H.Hwang, C.R.Cho, and S.Y.Jeong, J. Kor. Phys. Soc. 41(3), 381-385 (2002).
40-02-2. Tunable photoluminescence in sol-gel processed SrTiO3:Pr, J.Y.Hwang, S.Y.Jeong, and C.R.Cho, Ferroelectrics, 271, 155-160 (2002).
39-02-1. The mechanical study on the low temperature phases of LiCsSO4 crystal, Y.C.Cho, H.Y.Shim, H.T.Jeong, J.Y.Hwang, C.R.Cho, and S.Y.Jeong, J. Phys. Soc. Jpn. 71(4), 1072-1075 (2002).
2001
38-01-5. GaN 단결정의 성장과 그 특성연구, 박상언, 조채룡, 조용찬, 정세영, 광학과 기술, 5(4), 37-43 (2001).
37-01-4. Group-theoretical analysis for the ferroelastic domain walls, H.T.Jeong, Y.C.Cho, C.R.Cho, and S.Y.Jeong, J. Phys. Soc. Jpn. 70(9), 2588-2592 (2001).
36-01-3. Consideration on domain walls orientations in CsPbCl3 ferroelastic crystal in the monoclinic, H.T.Jeong, Y.C.Cho, S.Y.Jeong, and C.R.Cho, J. Phys. Soc. Jpn. 70(3), 717-722 (2001).
35-01-2. Photoluminescence and Raman spectra of flux processed bulk single crystal GaN, C.R.Cho, S.E.Park, and S.Y.Jeong MRS Symp. Proc. 680E 9.10-16 (2001).
34-01-1. Lead phorsphate 단결정에서의 Precursor Effect, 조용찬, 이현준, 정세영, 조채룡, 최용남, 이창희, 새물리, 42(1) 38-43(2001).
2000
33-00-2. Electromechanical properties and acoustic response of integrated PZT thin film, C.R.Cho and L.F.Francis, J. Mater. Sci. Lett. 19, 1477-1479 (2000).
32-00-1. Chemical bonding states and ferroelectricity of Pb(Zr0.52Ti0.48)O3 thin film, C.R.Cho, Cryst. Res. & Technol 35(1), 77-86(2000).
31-99-9. Etching behavior and damage recovery of SrBi2Ta2O9 thin films, W.J.Lee, C.R.Cho, S.H.Kim, I.K.You, B.W.Kim, B.G.Yu, C.H.Shin, and H.C.Lee, Jpn. J. Appl. Phys. 38(12A), L1428-L1431 (1999).
30-99-8. The effect of annealing temperature on electrical properties of SrBi2Ta2O9/ insulators/Si(MFIS) structure for NDRO- type FRAM device, B.G.Yu, W.J.Lee, C.R.Cho, C.H.Shin, and B.W.Kim, Cryst. Res. Technol. 34(9), 1197-1204 (1999).
29-99-7. Electrical properties of SrBi2Ta2O9/insulator/Si structures with various insulator, W.J.Lee, C.H.Shin, C.R.Cho, J.S.Ryu, B.W.Kim, and K.I.Cho, Jpn. J. Appl. Phys. 38(4A), 2039-2043 (1999).
28-99-6. Dielectric and ferroelectric response as a function of annealing tempera- ture and film thick- ness of sol-gel deposited PZT film, C.R.Cho, W.J.Lee, B.G.Yu, and B.W.Kim, J. Appl. Phys. 86(5), 2700-2711 (1999).
27-99-5. Structural and ferroelectric properties of sol-gel derived Nb-doped Pb[(Sc1/2Nb1/2)0.57Ti0.43O3 thin films, C.R.Cho, W.J. Lee, B.G.Yu, B.W.Kim, and K.B.Park, Jpn. J. Appl. Phys. 38(3A), 1459-1465 (1999).
26-99-4. Heteroepitaxial growth and switching behaviors of PZT (53/47) films on LaNiO3- deposited LaAlO3 and SrTiO3 substrate, C.R.Cho, Mater. Sci. Eng. B 64(2) 113-117 (1999).
25-99-3. Piezoelectric properties and acoustic wave detection of Pb(Zr0.52Ti0.48)O3 thin films for micro- electromechanical systems sensor, C.R.Cho, L.F.Francis, and M.S.Jang, Jpn. J. Appl. Phys. 38(7A), L751-L754 (1999).
24-99-2. Ferroelectric properties of LaNiO3 and PZT thin films deposited on single crystal and platinized silicon substrate, C.R.Cho, L.F.Francis, and D.L.Polla, Mater. Lett. 38(2), 125-130 (1999).
23-99-1. Properties of sol-gel deposited lead scandium niobium titanate thin film, C.R.Cho, D.E.Drinkwater, L.F.Francis, and D.L.Polla, Mater. Lett. 38(2) 136-140(1999).
1997
22-97-2. Solution deposition and heteroepitaxial crystallization of LaNiO3 electrodes for integrated ferroelectric devices, C.R.Cho, D.A.Payne, and S.L.Cho, Appl. Phys. Lett. 71(20), 3013-3015 (1997).
21-97-1. Electrical properties of sol-gel deposited BaTiO3 thin films on Si(100) substrates, C.R.Cho, S.I.Kwon, T.W.Noh, and M.S.Jang, Jpn. J. Appl. Phys. 36(4A), 2196-2199 (1997).
1996
20-96-3. Fatigue effects of metal doped-PZT thin films, B.G.Chae, S.J.Lee, C.R.Cho, Y.S.Yang, S.H.Kim, and M.S.Jang, Integra. Ferroelectrics 13, 87-96 (1996).
19-96-2. Electrical properties of paraelectric (Pb,La)(Nb,Ti)O3 thin films for dynamic random access memories device, S.J.Lee, C.R.Cho, M.S.Jang, M.S.Kang, and K.Y.Kang, Appl. Phys. Lett. 68(6), 764-766 (1996).
18-96-1. Switching characteristics of Pb(Zr0.52Ti0.48)O3 thin films prepared by RF-magnetron sputtering, B.G.Chae, S.J.Lee, C.R.Cho, S.H.Kim, Y.S.Yang, H.J.Joo, and M.S.Jang, J. Kor. Phys. Soc. 29, 636-639 (1996).
1995
17-95-7. The study of domain walls in Pb3(PO4)2 ferroelastic crystal, S.Y.Jeong, M.S.Jang, H.J.Kim, C.R.Cho, and S.J.Lee, Ferroelectric Lett. 19, 145-150 (1995).
16-95-6. Electrical properties of lead lanthanum titanate thin film capacitors prepared by sol-gel method, S.J.Lee, M.S.Jang, C.R.Cho, K.Y.Kang, and S.K.Han, Jpn. J. Appl. Phys. 34(11), 6133-6138 (1995).
15-95-5. Pressure dependence of C-V curve for ferroelectric PbTiO3 thin film prepared by RF multi-target magnetron sputtering, C.R.Cho, M.S.Jang, and S.Y.Jeong, Cryst. Res. Technol. 30(6), 873-880 (1995).
14-95-4. 화학적인 방법으로 준비된 강유전체 Pb(Zr0.52Ti0.48)O3 박막의 전기적, 광학적 성질, 조채룡, 장민수, 정세영, 이수재, 새물리 35(4),551-556 (1995).
13-95-3. Ferroelectric properties of hydrothermally prepared BaTiO3 films on Si(100) substrates by low- temperature rocessing, C.R.Cho, M.S.Jang, S.Y.Jeong, S.J.Lee, and B.M.Lim, Mater. Lett. 23, 203-207 (1995).
12-95-2. 강탄성체 Pb3(PO4)2 단결정의 라만 산란에 관한 연구, 이수재, 장민수, 김호종, 조채룡, 한석길, 이형철, 새물리35(2), 248-253 (1995).
11-95-1. Cr2+, Fe2+와 Mn2+ 을 첨가한 Pb3(PO4)2 단결정의 유전성, 김호종, 정세영, 조채룡, 이수재, 장민수, 이형철, 새물리35(1), 146-150 (1995).
1994
10-94-5. The study on the pressure dependence of the domain walls of ferroelastic Pb3(PO4)2 crystal, 김호종, 장민수, 정세영, 조채룡, Ferroelectrics 157, 39-44 (1994).
9-94-4. Structural and electrical properties of BaTiO3 thin films on Si(100) substrate by hydrothermal synthesis, C.R.Cho, E.Shi, M.S.Jang, S.Y.Jeong, and S.C.Kim, Jpn. J. Appl. Phys. 33(9A), 4984-4990 (1994).
8-94-3. The formation mechanism of barium titanate thin films under hydrothermal condition, E.Shi, C.R.Cho, M.S.Jang, S.Y.Jeong, and H.J.Kim, J. Mater. Res. 9(11), 2914-2918 (1994).
7-94-2. -2. Defects of BaTiO3 thin films on Ti-deposited Si substrate by hydro-thermal method C.R.Cho, E.Shi, M.S.Jang, and S.Y.Jeong, Integra. Ferroelectrics 5, 133-144 (1994).
6-94-1. The study on the ferroelectric ATiO3 (A=Ba,Pb) thin films fabricated by sol-gel processing, C.R.Cho, M.S.Jang, S.Y.Jeong, H.J.Kim, and J.H.Rho, Ferroelectrics 152, 37-42 (1994).
1993
5-93-2. A study on the twin domain of Pb3(PO4)2 ferroelastic crystal, E.Shi, S.Y.Jeong, M.S.Jang, H.J.Kim, C.R.Cho, and Y.S.Yu, Ferroelectrics 142, 121-130 (1993).
4-93-1. Ferroelectric PbTiO3 powders and thin films derived from sol-gel processing, C.R.Cho, M.S.Jang, S.Y.Jeong, and Y.B.Kim, Cryst. Res. Technol. 28(8), 1085-1092 (1993).
1992
3-92-2. Sol-gel 법으로 제조된 강유전체 PbTiO3의 분말 및 박막에 대한 연구, 조채룡, 장민수, 정세영, 김호종, 새물리 32(6), 856-860 (1992).
2-92-1. Sol-gel 법을 이용한 강유전체 BaTiO3 박막 및 ceramics 제조, 조채룡, 이수재, 장민수, 김호종, 정세영, 노동택, 김성철, 새물리 32(4), 575-581 (1992).
1987
1-87-1. The formation of palladium silicide in a thin Ti-layer sandwitched Pd/Si(111) system, K.H.Kim, C.R.Cho, T.S.Park, K.S.Shon, W.H.Lee, S.C.Kim, and C.G.Choi, J. Kor. Phys. Soc. 20(4), 365-371 (1987).