교수소개

송정환 교수

학력

  1. 1993. 2 배재대학교 공과대학 무기재료공학과 (공학사)
  2. 1996. 2 배재대학교 대학원 재료공학과 (공학석사)
  3. 2002.12 일본 동경공업대학 물질과학창조전공 (공학박사)

경력

  1. 1994 ~ 96 : 배재대학교 무기재료공학과 조교
  2. 1996 ~ 99 : 한국과학기술원 전자세라믹재료연구센터 위촉연구원
  3. 2003 ~ 04 : Research Fellow, Combinatorial Materials Exploration and Technology, National Institute for Materials Science
  4. 2004 ~ 06 : Researcher, Kanagawa Academy of Science and Technology
  5. 2006 ~ 현재 : 배재대학교 신소재공학과 교수 (정보전자소재공학과)

저서 및 논문

임피던스형 가스센서
  1. (1) "Fabrication of Stack-Structured Gas Sensor of LaCrxCo1-xO3/Li1.3Al0.3Ti1.7(PO4)3 and Its NOx Sensing Properties," Young-Sung Lee, Y. Shimizu, J. H. Song, Kor. J. Mater. Res., 25(8), 423-428 (2015)
  2. (2) "Sensing behavior of solid-state impedancemetric NOx sensor using solid electrolyte transducer and oxide receptor,” Hong-Chan Cho, Satoko Takase, Jeong-Hwan Song, Youichi Shimizu, Sensors and Actuators B, 187, 94-98 (2013)
  3. (3) "Fabrication of Nano-LaCrO3 Receptor by Polymeric Precursor Method and Its Impedancemetric NOx Sensing Properties,” Young-Sung Lee, Hong-Chan Cho, S. Takase, Y. Shimizu, Jong-Tae Baek, Jeong-Hwan Song, J. Nanosci. Nanotechnol., 12, 1141-1146 (2012)
  4. (4) "Sensing Properties of Impedancemetric Solid-Electrolyte NOx Sensor Using Perovskite-Type Lanthanum Manganite-Based Receptor,” Hong-Chan Cho, S. Kuramoto, S. Takase, Jeong-Hwan Song, Y. Shimizu, Sensors and Materials, 24(1), 31-41 (2012)
  5. (5) "Fabrication and NOx Gas Sensing Properties of LaMeO3 (Me = Cr, Co) by Polymeric Precursor Method,” Young-Sung Lee, Y. Shimizu, J. H. Song, Kor. J. Mater. Res., 21(8), 468-475 (2011)

플라즈마 전해산화법(PEO)에 의한 경량금속 표면처리
  1. (1) “Influence of Electrolytic KF on the Uniform Thickness of Oxide Layers Formed on AZ91 Mg Alloy by Plasma Electrolytic Oxidation,” Duck-Hyun Song, Dae-Young Lim, Vladimir Fedorov, Jeong-Hwan Song, Kor. J. Mater. Res., 27(9), 495-500 (2017)
  2. (2) “Influence of the Duty Cycle on Structural and Mechanical Properties of Oxide Layers on Al-1050 by a Plasma Electrolytic Oxidation Process,” Jeong-Hwan Song, Kyung-Su Nam, Jung-In Moon, Young-Jun Choi, Dae-Young Lim, Met. Mater. Int., 20(3), 451-458(2014)
  3. (3) "Influence of the Duty Cycle on the Characteristics of Al2O3 Coatings Formed on the Al-1050 by Plasma Electrolytic Oxidation,” Kyung-Su Nam, Jung-In Moon, Phimmavong Kongsy, Jeong-Hwan Song, Dae-Young Lim, J. Kor. Ceram. Soc., 50(2), 108-115 (2013)
  4. (4) "Influence of the Electrical Parameters on the Fabrication of Oxide Layers on the Surface of Al-1050 by a Plasma Electrolytic Process,” Kyung-Su Nam, Jeong-Hwan Song, Dae-Young Lim, J. Kor. Ceram. Soc., 49(6), 498-504 (2012)

Nanopowder
  1. (1) "Fabrication of ZnS Powder by Glycothermal Method and Its Photocatalytic Properties,” Sang-Jun Park, Dae-Young Lim, Jeong-Hwan Song, Kor. J. Mater. Res., 27(9), 489-494 (2017)
  2. (2) "Low-Temperature Synthesis of CuS Nanopowders Using a Simple Glycolate Method," Duck-Hyun Song, Jeong-Hwan Song, Seung-Beom Cho, and Dae-Young Lim, J. Nanosci. Nanotechnol., 17, 4352–4355 (2017)
  3. (3) "Effect of Water Content on the Morphology of ZnO Powders Synthesized in Binary Solvent Mixtures by Glycol Process," Phimmavong Kongsy, Jeong-Hwan Song, Seung-Beom Cho, Dae-Young Lim, J. Kor. Ceram. Soc., 54(3), 211-216 (2017)
  4. (4) "Facile glycothermal synthesis of ZnO nanopowder at low temperature,” Je-Hyeok Ryu, Phimmavong Kongsy, Dae-Young Lim, Seung-Beom Cho, Jeong-Hwan Song, Ceramics International, 42, 17565-17570 (2016)
  5. (5) "Glycothermal Synthesis and Photocatalytic Properties of Highly Crystallized Anatase TiO2 Nanoparticles,” Hyun-Sig Kil, Yong-Jin Jung, Jung-In Moon, Jeong-Hwan Song, Dae-Young Lim, Seung-Beom Cho, J. Nanosci. Nanotechnol., 15, 6193-6200 (2015)
  6. (6) "Glycothermal synthesis of 3 mol% yttria stabilized tetragonal ZrO2 nano powders at low temperature without mineralizers,” Je-Hyeok Ryu, Hyun-Sig Kil, Jeong-Hwan Song, Dae-Young Lim, Seung-Beom Cho, Powder Technology, 221, 228-235 (2012)
  7. (7) "Synthesis and Conductive Properties of Li1+xAlxTi2-x(PO4)3 (x = 0, 0.3, 0.5) by Sol-Gel Method,” Jung-In Moon, Hong-Chan Cho, Jeong-Hwan Song, Kor. J. Mater. Res., 22(7), 346-351 (2012)
  8. (8) "Synthesis of Activated Carbon from Rice Husk Using Microwave Heating Induced KOH Activation,” Tuan Dung Nguyen, Jung-In Moon, Jeong-Hwan Song, Taik-Nam Kim, Kor. J. Mater. Res., 22(6), 321-327 (2012)
  9. (9) "Hydrothermal Synthesis and Structural Characterization of x mol% Calcia-Stabilized ZrO2 Nanopowders,” Je-Hyeok Ryu, Jung-In Moon, Yeon-Kyung Park, Nguyen Tuan Dung, Jeong-Hwan Song, Taik-Nam Kim, Kor. J. Mater. Res., 22(5), 220-226 (2012)
  10. (10) "Catalyst-free synthesis of novel brush-shaped ZnO particles by a simple oxidation in air,” Geun-Hyoung Lee, Jeong-Hwan Song, Appl. Surf. Sci., 256, 2837-2840 (2010)
  11. (11) "Glycothermal Synthesis and Characterization of 3Y-TZP Nanoparticles,” J. H. Song, J. H. Lee, Kor. J. Mater. Res., 19(8), 412-416 (2009)
  12. (12) "Synthesis and structural properties of ZrO2 and 3Y-ZrO2 powders as a esthetic dental prosthesis materials by the glycothermal method,” J. H. Lee, J. H. Song, 대한치과기재학회지, 36(2), 111-118 (2009)

박막재료 성장 및 특성
  1. (1) “Interrelatedness of Fe composition on structural and magnetic properties in Fe-doped SrRuO3 thin films,” Y.Z. Yoo, O. Chmaissem, S. Kolesnik, D.E. Brown, B. Dabrowski, C.W. Kimball, T.-W. Kim, M.-S. Kim, A.P. Genis, J.-H. Song, Applied Physics A, 115, 913-917 (2014)
  2. (2) “RHEED study on continuously repeated step flow and layer-by-layer growth modes in SrRuO3/SrMnO3 superlattice,” Young-Zo Yoo, Omar Chmaissem, Jeong-Hwan Song, Current Applied Physics, 14, 378-382 (2014)
  3. (3) "Combinatorial Composition Films and Dielectric Properties of BaxSr1-xTiO3 Grown on Two-Inch p-Si using PLD Process,” Ibrahim M. Abdel-Motaleb, Praveen Navuduri, Young-Zo Yoo, Omar Chmaissem, Jeong-Hwan Song, International Journal of Applied Ceramic Technology, 10(S1), E159-E166 (2013)
  4. (4) "Fabrication of a Pure TiO2 Thin Film Using a Self-Polymeric Titania Nano-Sol and Its Properties,” Won-Kyu Park, Jeong-Hwan Song, Soo-Ryong Kim, Tae-Hyun Kim, Mitusnobo Iwasaki, J. Nanosci. Nanotechnol., 12, 1174-1178 (2012)
  5. (5) "STRUCTURE AND PROPERTIES OF FILMS BASED ON HfO2–Sc2O3 DOUBLE OXIDE,” L.V. Yakovkina, T.P. Smirnova, V.O. Borisov, S. Jeong-Hwan, N.B. Morozova, V.N. Kichai, A.V. Smirnov, J. Structural Chemistry, 52(4), 743-747 (2011)
  6. (6) "Emission Properties from Induced Structural Degradation of a-C:H Thin Film,” Young-Zo Yoo, J. H. Song, TRANSACTIONS ON ELECTRICAL AND ELECTRONIC MATERIALS, 12(3), 89-92 (2011)
  7. (7) "Interfaces analysis of the HfO2/SiO2/Si structure,” T.P. Smirnova, L.V. Yakovkina, S.A. Beloshapkin, V.V. Kaichev, N.I. Alferova, Song Jeong-Hwan, J. Phy. Chem. Solids., 71, 836-840 (2010)
  8. (8) "Investigation of Bending Stability of Amorphous Zn-In-Sn-O Thin Films on Flexible Poly(ether sulfone) Substrates,” Gi-Seok Heo, In-Gi Gim, Hyun-Kee Lee, Jeong-Hwan Song, Tae-Won Kim, Jpn. J. Appl. Phys., 49, 031104 (2010)
  9. (9) "Growth of MnS Thin Film on c-Sapphire by Pulsed Laser Deposition,” J. H. Song, Kor. J. Mater. Res. 17(9), 475-479 (2007)
  10. (10) "Sulfide and Oxide Heterostructures for the SrTiO3 Thin film growth on Si and Their structural and Interfacial Stabilities,” Y.-Z. Yoo, J. H. Song, Y. Konishi, M. Kawasaki, H. Koinuma, T. Chikyow, Jpn. J. Appl. Phys. 45 (2006) 1788-1793.
  11. (11) "V defects of ZnO thin films grown on Si as an ultraviolet optical path,” Y.-Z. Yoo, T. Sekiguchi, T. Chikyow, M. Kawasaki, T. Onuma, S. F. Chichibu, J. H. Song, H. Koinuma, Appl. Phys. Lett. 84 (2004) 502.
  12. (12) "45° rotational epitaxy of SrTiO3 thin films on sulfide-buffered Si,” Y. Z. Yoo, P. Ahmet, Zheng-Wu Jin, K. Nakajima, T. Chikyow, M. Kawasaki, Y. Konishi, Y. Yonezawa, J. H. Song, H. Koinuma, Appl. Phys. Lett. 82 (2003) 4125.
  13. (13) "Combinatorial Synthesis Approach for Optimizing Oxide/Si Interfaces for The Future ULSI,” T. Chikyow, P. Ahmet, T. Naruke, K. Nakajima, N. Okazaki, K. Hasegawa, H. Minami, K. Itaka, T. Koida, J. H. Song, M. Yoshimoto, T. Hasegawa, M. Kawasaki, H. Koinuma, Mat. Res. Soc. Symp. Proc. 700 (2002) 85-95.
  14. (14) "Growth of NdBa2Cu3O7-y single crystal thin films by tri-phase epitaxy,” K. S. Yun, B. D. Choi, J. H. Song, Y. Matsumoto, P. Ahmet, T. Chikyow, M. Kawasaki and H. Koinuma, Physica C 378-381 (2002) 1202-1208.
  15. (15) "Vapor–liquid–solid tri-phase pulsed-laser epitaxy of RBa2Cu3O7–y single-crystal films,” K.S. Yun, B.D. Choi, Y. Matsumoto, J.H. Song, N. Kanda, T. Itoh, M. Kawasaki, T. Chikyow, P. Ahmet, H. Koinuma, Appl. Phys. Lett. 80 (2002) 61.
  16. (16) "Thermodynamically steady-state growth of NdBa2Cu3O7- single crystalline films by Tri-phase epitaxy,” Y. Matsumoto, K.S. Yun, R. Takahashi, J.H. Song, B.D. Choi, T. Itoh, P. Ahmet, K. Nakajima, T. Chikyow, H. Koinuma, M. Kawasaki, Proc. of the 5th sym. on atomic-scale surface and interface dynamics, 12 (2001) 323-326.

소수성 표면에서의 액체의 동적거동
  1. (1) "Dynamic Sliding Behavior of Water Droplets on the Coated Hydrophobic Surfaces,” J. H. Song, A. Nakajima, Kor. J. Mater. Res., 17(11), 569-573 (2007)
  2. (2) "Relationship between sliding acceleration of water droplets and dynamic contact angles on hydrophobic surfaces," M. Sakai, J.-H. Song, N. Yoshida, S. Suzuki, Y. Kameshima, A. Nakajima, Surface Science 600 (2006) L204-L208.
  3. (3) "Dynamic Hydrophobicity of Water Droplets on the Line-Patterned Hydrophobic Surfaces," J.-H. Song, M. Sakai, S. Suzuki, N. Yoshida, Y. Kameshima, A. Nakajima, Surface Science 600 (2006) 2711-2717.
  4. (4) "Sliding Acceleration of Water Droplets on a Oxide Silicon Surface Coated with Fluoroalkylsilane and Octadecyltrimethoxysilane," S. Suzuki, A. Nakajima, M. Sakai, J.-H. Song, N. Yoshida, Y. Kameshima, K. Okada, Surface Science 600 (2006) 2214-2219.
  5. (5) "Direct Observation of Internal Fluidity in a Water Droplet during Sliding on Hydrophobic Surfaces," M. Sakai, J.-H. Song, N. Yoshida, S. Suzuki, Y. Kameshima, A. Nakajima, Langmuir 22 (2006) 4906-4909.
  6. (6) "Effect of Roughness on Lipophobicity of a Surface Prepared Using Boehmite Nanoparticles and Fluoroalkylsilane," A. Nakajima, M. Hoshino, J.-H. Song, Y. Kameshima, K. Okada, ChemistryLetters 34 (2005) 908-909.

실리콘 기판에서의 질화물 반도체박막의 성장과 광학특성
  1. (1) "Nonpolar a-plane GaN film on Si (100) produced using a specially designed lattice-matched buffer: A fresh approach to eliminate the polarization effect," J. H. Song , Y. Z. Yoo, K. Nakajima, T. Chikyow, T. Sekiguchi, H. Koinuma, J. Appl. Phys. 97 (2005)
  2. (2) "Structural and interfacial stabilities of epitaxial (1120) oriented wurtzite AlN films grown on lattice-matched MnS buffered Si(100)," J. H. Song, Y. Z. Yoo, T. Chikyow, H. Koinuma, Applied Physics A 79 (2004) 457.
  3. (3) "Growth of non-polar a-plane III-nitride thin films on Si(100) using non-polar plane buffer layer,” J.-H. Song, Y.-Z. Yoo, T. Sekiguchi, K. Nakajima, P. Ahmet, T. Chikyow, K. Okuno, M. Sumiya, H. Koinuma, Physica Status Solidi(c) 0, 7 (2003) 2520-2524.
  4. (4) "Epitaxial growth of the wurtzite (1120) AlN thin films on Si (100) with MnS buffer layer,” J. H. Song, T. Chikyow, Y. Z. Yoo, P. Ahmet, H. Koinuma, Jpn. J. Appl. Phys. 41 (2002) L1291.

기타 연구논문
  1. (1) "Influence of Water Infiltration and Flexural Strength Change with Glazing Treatment of Dental Porcelain,” Ju-Hee Lee, Chae-Hyun Lee, Jeong-Hwan Song, J. Dent. Hyg. Sci. 17(4) 358-367 (2017).
  2. (2) "Interfacial Layer and Thermal Characteristics in Ni-Zn-Cu Ferrite and Pb(Fe1/2Nb1/2)O3 for the Low Temperature Co-Sintering,” J. H. Song, J. Kor. Inst. Electrical and Electronic Mater. Eng., 20(10), 873-877 (2007)

특허

  1. (1) 마그네슘계 금속의 플라즈마 전해 산화 표면처리방법 및 이로 제조되는 마그네슘 금속 산화막 (등록번호:10-1464962)
  2. (2) 알루미늄계 금속의 플라즈마 전해산화 표면처리방법 및 이로 인해 제조되는 알루미늄 금속 산화막 (등록번호:10-1214400)
  3. (3) 가스센서용 조성물 및 이를 이용한 질소산화물 가스 센서 (등록번호:10-1192866)
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