소속·학력

• 화학공학과
• 학위 : 공학박사
• Tokyo University of Agriculture and Technology

경력

• 2003 ~ 현재 한라대학교 화학공학과
• 1996 ~ 2003중소기업청
• 1991 ~ 1995 기술표준원
• 1991LG전자

연구논문

• 32Soo-Jong Kim, Synthesis of Ca14Zn6Al10O35:Mn4+, Nd3+ phosphor using starch as an impregnation medium, Journal of Ceramic Processing Research, Vol. 24, No. 6, pp. 963-967, December 31 (2023)
• 31Jae-Ho Kim, Ga-Ram Kim, Jin-To Choi and Soo-Jong Kim, Synthesis and Characteristic Evaluation of Downward Conversion Phosphor for Improving Solar Cell Performance, The Journal of the Convergence on Culture Technology (JCCT), Vol. 9, No. 5, pp.523-528, September 30 (2023)
• 30Soo-Jong Kim, Preparation of cobalt oxide(Co3O4‧CoO) ultra fine particles using cobalt(II) chloride hexahydrate and crystalline cellulose as a starting materials, Journal of Convergence on Culture Technology, Vol. 9, No. 3, pp.587-592, May 31 (2023)
• 29Soo-Jong Kim, Synthesis of Nickel Oxide (NiO) nanoparticles using nickel(Ⅱ) nitrate hexahydrate as a precursor, Journal of Convergence on Culture Technology, Vol. 9, No. 3, pp.593-599, May 31 (2023)
• 28Preparation and Characterizations of Wood Plastic Composite Panel Fabricated with Chamaecyparis obtusa Wood Flour, Soo-Jong Kim, Journal of Convergence for Information Technology, Vol. 12. No. 5, pp. 126-132 (2022)
• 27Synthesis of alumina(α-Al2O3) nanoparticles using aluminium nitrate nonahydrate precursor and industrial pulp as impregnation matrix, Soo-Jong Kim, Journal of Advanced Engineering and Technology, Vol. 14, No. 2, pp.089-093 (2021)
• 26Synthesis of cobalt oxide(Co3O4) nanoparticles by precipitation method using cobalt nitrate hexahydrate as the precursor, Soo-Jong Kim, Journal of Advanced Engineering and Technology, Vol. 14, No. 1, pp.025-028 (2021)
• 25Synthesis and characterization of cobalt oxide nanoparticles by using industrial pulp as impregnated precursor, Soo-Jong Kim, J. of Cer. Proc. Res, Vol. 22, No. 1, 74-78 (2021)
• 24Synthesis of TiO2 nanoparticles using titanium tetraisoproxide and starch, Soo-Jong Kim and Kenji Ogino, J. of Cer. Proc. Res, Vol. 20, No.6, pp.665~669 (2019)
• 23Synthesis of MgO nanoparticles using starch as precursor medium, Soo-Jong Kim and Cheong-Hwa Han, J. of Cer. Proc. Res., Vol. 19, No. 2, pp. 130~133 (2018) 130
• 22High-temperature thermoelectric properties of Sm3+-doped Ca3Co3O9+ Fabricated by spark plasma sintering, J.S. Cha, S.-M. Choi, G.H. Kim, S.-J. Kim, K. Park,⁎Ceramic International, 44 (2018) 6376–383
• 21Stryctural and Optical Properties of Hydro thermally Synthesized Zn0.99O:Eu3+ Powders, K. Park, D.A. Hakeem, J. Kim, Y. Kim and S.-J. Kim, ACTA PHYSICA POLONICA A, K. Vol. 133 (2018)
• 20Kinetics and Mechanism of the Oxidation of Alcohols by C9H7NHCrO3Cl, Young-Cho Park, Young-Sik Kim1, Soo-Jong Kim, Journal of the Korea Academia-Industrial cooperation Society Vol. 19, No. 8 pp. 378-384, (2018)
• 19A Study for Kinetics and Oxidation Reaction of Substituted Benzyl Alcohols Using (C10H8N2H)2Cr2O7, Young Cho Park, Young Sik Kim, and Soo Jong Kim, Appl. Chem. Eng., Vol. 28, No. 5, October, 597-600, (2017)
• 18Synthesis and characterization of Y1-XVO4 : EuX3+ nanoparticles by using starch as an impregnating matrix, Soo-Jong Kim, Takaki Masaki, Seung-Hee Choi and Dae-Ho Yoon, J. of cer. proc. res., Vol. 17, No. 4, pp. 338-343, (2016).
• 17Synthesis of nano sized Eu3+ doped Y(P,V)O4 phosphors by using cellulose assisted liquid phase precursor process, Ye-Lim Song, Seung-Hee Choi, Soo-Jong Kim, Young Hyun Song, Takaki Masaki, and Dae-Ho Yoon, J. of cer. proc. res., Vol. 17, No. 3, pp. 202-204, (2016).
• 16Preparation of Nano-sized Titanium Oxide Powder Using Natural Polymer matrix, Soo-Jong Kim, Cheong-Hwa Han, Jae-Ho Shim, J. of the Kor. Cer. Soc., Vol. 50, No. 6, pp. 489-494. (2013).
• 15The Effect of Nucleating Agent for Improving Heat Resistance Properties of L-Lactide Polymer, Jae-Ho Shim, Soo-Jong Kim, Jae-Hoon Shim, Journal of the Korea Academia-Industrial cooperation Society, Vol. 13, No. 11, pp 5595-5600. (2012).
• 14Preparation of Nano-sized Zirconia Powders by the Impregnation Method, Cheong-Hwa Han and Soo-Jong Kim, Journal of the Korean Ceramic Society, Vol. 49, No. 5, pp 454-460, (2012).
• 13Preparation and Luminescence Properties of Y(P,V)O4:Eu3+ Phosphor using Impregnation Method, Cheong-Hwa Han and Soo-Jong Kim, Journal of the Korean Ceramic Society, vol. 48, No. 6, pp. 565-570, (2011).
• 12“Synthesis and Characterization of polytriphenyleneamine containing ether bond in the main chain", Jae Ho Sim, Soo Jong Kim, Kohei Yamada, Seiji Yokokura, Itaru Natori, Shizue Natori, Hisaya Sato, Synthetic Metals, 159 (2009) 85-90.
• 11“Preparation of PDP Red Phosphors by Impregnation Method and their Luminescence Properties”, Su-Yong Han, Dong-Kyu Lee, Soo-Jong Kima, Chung-Hwa Han, and Takaki Masaki, Transactions on Electrical and Electronic Materials, Vol.9, No. 2, April, p57-61, (2008).
• 10Synthesis and Photo Luminescence Characteristics of SrAl2O4:Eu2+,Dy3+ Phosphor using Polymer Matrix, J. of Korean Institute of Electrical and Electrnic Material Engineering, 2007/08/31, Soo-Jong Kim, Hyuk-Sil Kwon, Vol. 20, No. 8, p671-679(2007).
• 09Preparation and Luminescene Properties of Green Phosphors for PDP using Polymer Matrix Technique, Transactions on Electrical and Electronic Materials, 2007/06/30, Sang-Bae Jun, Dong-Kyu Lee, Soo-Jong Kim, Takaki Masaki, Chung-Hwa Han, Vol. 8, No. 3, p 121-124(2007).
• 08Barrier Rib Forming by Photosensitive Paste for Plasma Display Panel, Adv. in Tech. of Mat. Proc. J.(ATM), Takaki Masaki, Y.Iguchi, Kim Soo-Jong, (2004).
• 07Synthesis of Electro Conductive Nanosized ZnO Powders, Adv. in Tech. of Mat. Proc. J.(ATM), Takaki Masaki, H.Watanabe, K.Miyamoto, M.Ohno, Soo-Jong Kim, (2004).
• 06Synthesis of nano-sized ZnO powders prepared by precursor process, Journal of Ceramic Processing Research, Vol.4, No.3, 135-139, Masaki T., S.-J. Kim, Hironori W, Kei M., Mamoru O., Ki-Hwan K. (2003).
• 05Octacyanophthalocyaninatoiron Polymers as Cathode Material for Secondary Lithium Battery, Y. Asai, K. Onishi, S. Miyata, Soo-Jong Kim, M. Matsumoto, K. Shigehara, Journal of Electrochemical Society, 148(4) A305-A310, (2001).
• 04Lithium rechargeable Batteries composed of octacyanophthalocyaninatoiron and its Polymer complex as cathode, Soo-Jong Kim, K. Onishi, M. Matsumoto, K. Shigehara, J. Por & Phtha., 5: 397-404, (2001).
• 03Synthesis and electrical properties of one-dimensional octacyanometallo phthalocyanine (M=Fe, Co) polymers, Soo-Jong Kim, M. Matsumoto, K. Shigehara, J. Por. & Phthalo., 4, 136-144, (2000).
• 02Synthesis and electrical properties of poly(u-1,4-diisocyanobenzene) octacyanophthalo cyaninatoiron, J. Por. & Phthalo., Soo-Jong Kim, M. Matsumoto, K. Shigehara, Synthetic Metals, 107, 27-33, (1999).
• 01Synthesis and electrical properties of one-dimensional polymers of metallophthalocyanine with octakis-substituents of acceptor groups, Synthetic Metals, K. Morimoto, Soo-Jong Kim, K. Shigehara, 84, 353-354, (1997).

강의과목

• 기능성신소재합성설계(1),(2)
• 화학공학개론(1),(2)
• 고분자합성
• 무기공업화학
• 세라믹합성

저서 및 번역서

• 신소재공학개론, 동화기술, 김수종, 2020년.
• 나노공학 기초와 미래, 기전연구사, 2006/03/28, 서영섭, 한정화, 김수종, 박영서, 송광호, 200p
• 세라믹스공학, 2004/03/01, (주)북스힐, 마사키, 김수종, 이홍림, 천병수, 김광진, 하야미 료우조, 265p
• 세라믹스재료 전기물성학, 마사키, 천병수, 김수종, 한솔피앤피, 2006/03/01
• 화학을 위한 수학, 번역서, 2004/02/23, 청문각, 마사키, 천병수, 김수종, 270p
• 재료과학실험, 2005/02/25, 청문각, 마사키, 김수종, 김광진, 천병수, 번역서

산업재산권 및 특허권

• 01써멧 분말조성물 및 이를 이용한 써멧 및 써멧 라이닝 플레이트, 특허등록번호: 제 10-1963655호
• 02천연고분자 매트리스를 사용한 산화티탄 나노입자의 합성방법, 특허출원번호: 10-2015-0182673
• 03스포츠 시설물 도포용 탄성 바닥코팅재, 특허등록번호: 제 10-1449677호
• 04휴대 및 보관이 용이한 태양전지 모듈, 특허 : 제20-0459294호
• 05탄성추종형 수지를 포함하는 도로표지용 도료, 특허 출원일 2011년 4월 14일
• 06콘크리트 유해물질 용출로 인한 수중오염 방지 및 콘크리트 토목구조물의 방수, 방식, 내염해를 위한 세라믹과 고분자수지를 함유한 침투식 도료 조성물, 특허 등록일: 2011년 8월 18일
• 07나노세라믹과 고분자수지를 포함한 콘크리트 중성화 및 염해방지용 도료 조성물 및 이를 이용한 방수방식공법, 특허 제 10-1035904호
• 08나노세라믹과 고분자수지를 포함한 강구조물 내오염 및 방청용 도료조성물 및 이를 이용한 중방식 표면보호 공법, 특허 제 10-1035905호
• 09세라믹 및 고분자수지를 함유한 중성화, 염해, 오염방지 및 방수방식 도료 조성물 및 콘크리트 열화예방 및 표면보호 공법, 특허 제 10-0959415호
• 10점착 및 접착식 공기여과필터, 특허 제 10-1017574호
• 11도로표지판용 플라스틱 복합 쉬트 및 그 제조방법, 특허 등록번호 : 10-0915000호
• 12금속염과 고분자재료를 이용한 축광형광체의 제조방법, 특허 출원번호: 10-2007-0063872
• 13휴대 및 보관이 용이한 태양전지 모듈, 실용신안 출원번호: 20-2009-0005283
• 14투명소재로 이루어진 수도미터기의 하우징, 실용신안 출원번호 실용-2008-0013271
• 15도로포장용 바인더 조성물, 도로포장용 프라이머 조성물 및 미끄럼방지포장용 혼합물, 특허등록번호: 특허 10-0889041호
• 16상수도 금속관 방수방식용 도료조성물, 특허등록번호:10-0841607
• 17고분자세라믹스 방식재 및 이를 이용한 콘크리트 구조물 열화 및 중성화 방지 공법, 특허등록번호 :특허10-0770632
• 18탄성계수 조절용 고분자세라믹스 복합재료와 이를 이용한 콘크리트 구조물 보수보강공법, 특허등록번호:10-0671981
• 19고분자세라믹스 패널 및 이를 이용한 콘크리트구조물 단면 보수, 보강공법, 특허등록번호: 특허 제 10-0706678
• 20고분자세라믹스 방식재 및 이를 이용한 콘크리트 구조물 열화 및 중성화방지공법, 특허등록번호:특허 제 10-0770632
• 21콘크리트구조물 중성화 및 염해방지를 위한 고분자 도료 조성물, 특허등록번호: 특허 10-0661494
• 22생분해성 수지계 발포쉬트를 이용하여 성형성이 우수한 발포 물품을 제조하는 방법, 특허등록번호 : 특허 제10-0631145
• 23기존 콘크리트 구조체와 동등한 탄성거동을 하는 기중 및 수중 구조물 보수보강용 고분자 조성물, 등록번호:특허 10-0603898
• 24흑색안료 및 그 제조방법, 특허등록번호: 제 10-054598

소속·학력

• 화학공학과
• 학위 : 공학박사
• 학위취득 대학 : Tokyo University of Agri. and Tech.
• 전 공 : 기능성재료(도전성 고분자합성 및 디스플레이 재료)

경력

• 2017.11 ~ 2021. 3 입학홍보처장
• 2018. 3 ~ 2022. 5상조회장
• 2015. 5 ~ 2017.11 창업보육센터장
• 2011. 3 ~ 현재한라대학교 화학공학과 교수
• 1999. 9 ~ 2011. 2 ㈜NPI(Natural Polymer Ind.) 대표이사
• 1994. 4 ~ 1999. 9삼성SDI 종합연구소 선임연구원



• 기타한국 고분자학회 정회원
• 기타한국 공업화학회 정회원
• 기타한국 산학기술학회 종신회원
• 기타일본 고분자학회 정회원

강의과목

• 디스플레이재료
• 기능성고분자재료
• 캡스톤디자인
• 신소재공학기초실험

산업재산권 및 특허권

• 01칼라표시패널용 광도전층 조성물, 10-0399651-0000
• 02칼라 브라운관용 광도전성 물질 및 이를 이용한 형광막의 제조방법, 10-0424634-0000, Int. CI.:H01J 9/22
• 03칼라표시패널용 광도전층 조성물(Optical Electric Layer Construction Goods for Color Display Panel),10-0199556-0000, Int. CI.:H01J 29/88
• 04전하이동 착체시스템을 이용한 단층형 전자사진 광도전층 조성물 및 그 제조방법(COMPOSITION OF SINGLE-LAYER TYPED LIGHT CONDUCTIVE LAYER USING CHARGE TRANSFERING ADHESIVE BODY SYSTEM AND MANUFACTURING METHOD THEREOF, 10-0246927-0000, Int. CI.:H01J 1/63호
• 05칼라표시패널 광도전층용 전자수용체(ELECTRON TRANSFER AGENT FOR PHOTO-CONDUCTIVE LAYER OF COLOR DISPLAY PANEL),10-0222600-0000, Int. CI.:H01J 1/63
• 06양극성 단층형 전자사진용 광도전체 조성물,10-0424633-0000,Int. CI.:G03G 5/06
• 07광도전층용 중합체 및 그 제조방법,10-0388900-0000, Int. CI.:C08F 112/12
• 08칼라브라운관의 형광체 형성을 위한 전하발생용 대전장치, 10-0337872-0000
• 09도전막 조성물 및 이를 사용하여 형성된 도전막을 채용한 음극선관용 벌브,10-0388899-0000,Int. CI.:H01J 9/227
• 10포토리소그래피 방법(Photolithography method),10-0280716-0000,Int. CI.:H01L 21/027
• 11생분해성 용기, 20-0182121-0000
• 12음식물 쓰레기와 물품등의 수거용기,20-0252547-0000
• 13생분해성 발포쉬트(Biodegradable foam sheet),10-0372924-0000,Int. CI.:C08J 9/04
• 14생분해성 수지 조성물, 그의 제조방법 및 그로부터 제조되는 생분해성 플라스틱 공포탄용 탄피(Biodegradable resin composition, method for preparingthe same and biodegradable an empty cartridge for plastic blank ammunition produced therefrom),10-0538159-0000,Int. CI.:C08G 63/16
• 15생분해성 수지 조성물, 그의 제조방법 및 그로부터 제조되는 생분해성 수지 필름(Biodegradable resin composition, method for preparing the same and biodegradable resin film produced therefrom),10-0531757-0000,Int. CI.:C08L 67/02
• 16생분해성 수지계　발포 쉬트를 이용하여 성형성이 우수한 발포 물품을 제조하는 방법(Biodegradable Foam Sheet and Method for Preducing the same),10-0631145-0000 ,Int. CI.:C08J 9/18

연구논문

• 01PBAT Compound Films with Improved Hydrolysis Resistance and its Application", JCCT, Vol.8(5):553-559, 2022.9
• 02Comparison of Structural Types of L-Alanine Pentamer by Quantum Chemical Calculation", Appl. Chem. Eng., Vol.33(4):425-430, 2022.8
• 03Improved Hydrolysis Resistance of Biodegradable Mulching Films", JCCT, Vol.8(2):349-354, 2022.3
• 04“Conformational analyses of collagen-like Co-Glycine/L-proline oligopeptides by quantum chemical calculation (QCC): Sequence effects on conformations and intra-molecular hydrogen bonds”, Polymer Bulletin, Vol.78(8):6627-6644, 2022.8
• 05"High functional biodegradable card through annealing", J. of the Korean Academic Ind. Cooperation Society, Vol.21(2):280-286, 2020.2
• 06"Conformational analyses for hydrated oligopeptides by quantum chemical calculation (QCC): effects of intra-molecular hydrogen bonds", Polymer Bulletin, Vol.76(7):3247-3268, 2019.7
• 07"Conformational Analyses for Hydrated Oligopeptides by Quantum Chemical Calculation", J. of the Korean Academic Ind. Cooperation Society, Vol.19(7):95-104, 2018.7
• 08"Conformational analyses for alanine oligomer during hydration by quantum chemical calculation (QCC)", Polymer Bulletin, Vol.74(3):657-670, 2017.3
• 09"Synthesis and Characterization of Biobased Poly (Ether Benzoxazole) Derived from Vanillin", J. Fiber Sci. Technol., Vol.72(4):89-95, 2016. 4
• 10"Radical Copolymerization of Ferulic Acid Derivatives with Ethylenic Monomers, J. Fiber Sci. Technol., Vol.72(3):74-79, 2016. 3
• 11"Conformational analyses of an alanine oligomer during chain propagation using quantum chemical calculation", Polymer Journal, Vol.47(5):369-378, 2015.3

소속·학력

• 화학공학과
• 학위 : 공학박사
• 학위취득대학 : Korea Advanced Institute of Science & Technology(KAIST)
• 전공 : 생산공정관리/공급체인관리

경력

• 2018.9 ~ 현재 한라대학교 화학공학과
• 1999.3 ~ 2018.8한라대학교 산업경영공학과
• 1991.7 ~ 1999.2 세명대학교 경영학과
• 1988.3 ~ 1991.6한국전기통신공사 품질보증단 전임연구원

강의과목

• 공학기초설계
• 일반화학
• 신소재공정관리
• 캡스톤디자인
• 공급체인관리
• 생산관리

소속·학력

• 화학공학과
• 학위 : 공학박사
• 학위취득대학 : 경희대학교
• 전공 : 화학공학 (전기화학)
• 관심분야 : 에너지소재, 이차전지

경력

• Chair of poster session in The 11th International Symposium on Green Energy(2017. 7. 9.)
• Group leader of Center for Fostering Next-Generation Engineering Researchers for the Future Clean SMART Energy Platform in Kyung Hee University (2017.05. - 2018.8.24.)

연구논문

• 01“Synthesis of highly crystalline octahedron 3D-Zn2SnO4 as an advanced high-performance anode material for lithium ion batteries”, Applied Surface Science, Vol. 449, p. 514-520, Aug. 15, 2018
• 02“Highly porous CeO2 nanostructures prepared via combustion synthesis for supercapacitor applications”, Vol 449, P. 454-460, Aug. 15, 2018
• 03“Wet chemical synthesis and characterization of nanocrystalline ZnWO4 for application in Li-ion batteries”, Materials Chemistry and Physics, Vol. 207, p. 367-372, Mar. 1, 2018
• 04“Shield effect of polyaniline between Zn active material and aqueous electrolyte in Zn-air batteries”, Applied Surface Science, Vol. 422, p. 406-412, Nov. 15, 2017
• 05“Synthesis of novel lithium metal silicate and its application in lithium ion batteries as a potential cathode material”, Journal of Nanoscience and Nanotechnology, Vol. 17, p. 8061-8066, Nov. 1, 2017
• 06“Physical and electrochemical properties of CuO-coated Li[Ni0.8Co0.1Mn0.1]O2 cathodes at elevated temperature for lithium ion batteries”, Journal of Nanoscience and Nanotechnology, Vol. 17, p. 8093-8099, Nov. 1, 2017
• 07“Time-efficient synthesis of MnO2 encapsulated α-Fe2O3 ellipsoids for lithium ion battery applications”, Journal of Alloys and Compounds, Vol. 720, p. 300-308, Oct. 5, 2017
• 08“The effects of mechanical alloying on the self-discharge and corrosion behavior in a Zn-air batteries”, Journal of Industrial and Engineering Chemistry, Vol. 53, p. 247-252, Sep. 25, 2017
• 09“Titanium oxide nanofibers decorated nickel-rich cathodes as high performance electrode in lithium ion batteries”, Journal of Industrial and Engineering Chemistry, Vol. 51, p. 223-228, Jul. 25, 2017
• 10“A facile and highly efficient short-time homogenization hydrothermal approach for the smart production of high-quality α-Fe2O3 for rechargeable lithium batteries”, Journal of Materials Chemistry A, Vol. 5, p. 16712-16721, Jul. 11, 2017
• 11“Agar templated electrodeposition of binary zinc-cobalt alloy and formation of zinc-cobalt-carbon nanocomposite for application in secondary lithium batteries”, Journal of Alloys and Compounds, Vol. 697, p. 450-460, Mar. 15, 2017
• 12“Eco-friendly nitrogen-containing carbon encapsulated LiMn2O4 cathodes to enhance the electrochemical properties in rechargeable Li-ion batteries”, Scientific Reports Vol. 6, Jul. 13, 2016
• 13 “Design and electrochemical investigation of a novel graphene oxide-silver joint conductive agent on LiFePO4 cathodes in rechargeable lithium-ion batteries”, Journal of Industrial and Engineering Chemistry, Vol. 36, p. 121-124, Arp. 25, 2016
• 14“Facile longitudinal unzipping of carbon nanotubes to graphene nanoribbons and their effects on LiMn2O4 cathodes in rechargeable lithium-ion batteries”, Acta Materialia, Vol. 100, p. 11 - 18, Nov. 1, 2015
• 15“Physical and electrochemical performance of LiNi1/3Co1/3Mn1/3O2 cathodes coated by Sb2O3 using a sol-gel process”, Materials Chemistry and Physics, Vol. 158, p. 45 - 51, May 5, 2015
• 16“Structural and electrochemical evaluation of bismuth doped lithium titanium oxides for lithium ion batteries”, Journal of Power Sources, Vol. 280, p. 23 - 29, Apr. 15, 2015
• 17“Environment-friendly cathodes using biopolymer chitosan with enhanced electrochemical behavior for use in lithium ion batteries”, ACS Applied Materials & Interfaces, Vol. 7, p. 7884 - 7890, Mar. 30, 2015
• 18“Coating on zinc surface to improve the electrochemical behavior of zinc anodes for zinc-air fuel cells”, Electroanalysis, Vol. 27, Issue 2, p. 517 - 523, Jan. 16, 2015
• 19“Effects of inorganic salts on the morphological, structural, and electrochemical properties of prepared nickel-rich Li[Ni0.6Co0.2Mn0.2]O2”, Journal of Power Sources, Vol. 268, p. 349 - 355, Dec. 5, 2014
• 20“Effect of additives on electrochemical and corrosion behavior of gel type electrodes for Zn-air system”, Industrial & Engineering Chemistry Research, Vol. 53, p. 17370 - 17375, Nov. 17, 2014
• 21“Effect of monocationic ionic liquids as electrolyte additives on the electrochemical and thermal properties of Li-ion batteries”, Current Applied Physics, Vol. 14, p. 1022 - 1027, Aug. 1, 2014
• 22“Depth profile studies on nickel rich cathode material surfaces after cycling with an electrolyte containing vinylene carbonate at elevated temperature”, Physical Chemistry Chemical Physics, Vol. 16, Issue 32, p. 17062 - 17071, Jul. 1, 2014
• 23“Characterization of Li-rich xLi2MnO3·(1−x)Li[MnyNizCo1−y−z]O2 as cathode active materials for Li-ion batteries”, Electrochimica Acta, Vol. 108, p. 32 - 38, Oct. 1, 2013
• 24“Crystalline Sb-Cu alloy films as anode materials for Li-ion rechargeable batteries”, Current Applied Physics, Vol. 13, p. 1454 - 1458, Sep. 1, 2013
• 25“Brush electroplated CoSn2 alloy film for application in lithium-ion batteries”, Journal of Alloys and Compounds, Vol. 564, p. 95 - 99, Jul. 5, 2013
• 26“Silver effect of Co–Ni composite material on energy storage and structural behavior for Li-ion batteries”, Applied Surface Science, Vol. 276, p. 433 - 436, Jul. 1, 2013
• 27“Optimization of electrophoretic suspension to fabricate Li[Ni1/3Co1/3Mn1/3]O2 based positive electrode for Li-ion batteries”, Electrochimica Acta, Vol. 95, p. 295 - 300, Apr. 15, 2013
• 28“Investigation on high performance electrodes active materials for advanced lithium-ion rechargeable batteries”, Journal of Ceramic Processing Research, Vol. 13, Special 2, p. s315 - s317, 2012
• 29“Electrochemical and morphological properties of separator induced by different stretching ratio”, Journal of Ceramic Processing Research, Vol. 13, Special 2, p. s312 - s314, 2012
• 30“Analysis of thermal aging and structural stability of Li[Lix(Ni0.3Co0.1Mn0.6)1-x]O2 (x=0.11) cathode active material for rechargeable Li-ion batteries”, Japanese Journal of Applied Physics, Vol. 51, p. 09MB04-1 - 09MB04-4, Sep. 20, 2012

강의과목

• 2학년 : 화학공학개론
• 3학년 : 고분자합성, 캡스톤디자인
• 4학년 : 무기공업화학

산업재산권 및 특허권

• 01 “Anode Material of Zinc Air Cell and Method for Preparing the Same”, Korea Patent No. 10-1848237, Apr. 6, 2018
• 02“Cathode Active Material for Lithium Secondary Battery and Method of Preparing the Same”, Korea Patent No. 10-1796248, Nov. 3, 2017
• 03“Alloy for Anode of Zinc Air Cell and Method for Preparing the Same”, Korea Patent No. 10-1779602, Sep. 12, 2017
• 04“A Cathode Active Material for Lithium Secondary Battery and a Method of Preparing the Same”, Korea Patent Application No. 10-2017-0111176, Aug. 31, 2017
• 05“An Anode Active Material for Lithium Secondary Battery and a Method for Manufacturing the Same”, Korea Patent Application No. 10-2017-0107288, Aug. 24, 2017
• 06“A Method for Manufacturing an Anode Active Material for Lithium Secondary Battery”, Korea Patent Application No. 10-2017-0104386, Aug. 17, 2017
• 07“Cathode Active Material for Lithium Secondary Battery and Method of Preparing the Same”, Korea Patent No. 10-1745416, June 2, 2017
• 08“Method of Producing the Same and Electrode for a Rechargeable Battery Employing the Same”, Korea Patent No. 10-1583142, Dec. 30, 2015
• 09“Electrode Using Natural Substance Including Calcium Carbonate, and Method for Producing the Same”, Korea Patent No. 10-1327511, Nov. 4, 2013

소속·학력

• 화학공학과
• 학위 : 공학박사
• 학위취득대학 : 충북대학교
• 전공 : 화학공학

경력

• 호암 엔지니어링 연구소장
• LG생활건강 기술연구원

강의과목

• 단위조작
• 화학공학양론
• 재료물리화학
• 화공열역학

소속·학력

• 전공 : 물리화학

강의과목

• 일반물리학
• 재료열역학
• 뉴세라믹재료
• 화학공학개론
• 고분자재료개론
• 세라믹화학
• 유기공업화학