학력

• 한양대학교 산업공학과 학사
• 한국과학기술원 산업공학과 석사
• 한국과학기술원 산업공학과 박사

기타 경력

• 한라대학교 산업경영공학과 교수
• 한국트리즈학회(KATA) 종신회원 및 편집위원
• 한국프로젝트경영학회 부회장
• 한국산업경영시스템학회 편집위원
• 25회 과학기술 우수논문상 수상, 2015년 (한국과학기술단체총연합회)
• 한백학술상 수상, 2000년 (한국산업경영시스템학회)
• 미국프로젝트관리전문가(PMP)
• 트리즈 3수준 인증

연구관심분야

• 트리즈, PM, 서비스디자인, 비즈니스모델

강의 과목

• 스마트관광
• 서비스경영
• 관광스타트업아이디어
• 창의적 발상과 문제해결

학력

• 강원대학교 관광경영학과 졸업
• 경기대학교 관광경영학과 석사졸업
• 경기대학교 여가관광개발학과 박사졸업

학회관련경력

• 한국관광학회 선입이사(부위원장)
• 한국관광학회 관광자원개발분과학회 부회장(학술진흥위원장)
• 한국관광연구학회 편집이사
• 한국이벤트컨벤션학회 이사

기타 경력

• 2018.12 국무총리 표창(일자리창출 지원)
• (국가공인) 농어촌개발컨설턴트
• 농림축산식품부 국가중요농업유산자문위원
• 강원도 ICT-레저휴양 융복합 지원사업 자문위원
• 원주시 관광진흥자문위원
• 원주시 문화도시추진위원
• 2013.3-현재 한라대학교 관광경영학과 교수
• 2012-2013 농촌진흥청 국립농업과학원 박사후연구원
• 2003-2006 강원발전연구원 연구본부

연구관심분야

• 관광자원개발
• 관광자행동, 관광마케팅
• 농어촌관광, 생태관광, 공정여행
• 지역관광 활성화, 체류형 관광

강의과목

• 관광학원론
• 관광자원론
• 관광개발론
• 관광소비자행동론
• 관광이벤트론

학력

• 강원대학교 관광경영학과 졸업, 경영학사
• 한라대학교 정보산업대학원 관광경영학과 졸업, 관광학석사

경력

• 현) (주)하나투어 수석. 팀장
• 현) 한국관광공사 DMO 자문위원

연구 관심분야

• 골프관광
• 반려동물 동반 여행
• 실버세대 여행

강의과목

• 여행업 실무
• 여행사 경영론
• 관광자원콘텐츠 실무 [LINC+ 교과]

소속·학력

• 신소재화학공학과
• 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 : 신소재화학공학개론
• 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

• 신소재화학공학과
• 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
• 신소재화학공학개론
• 고분자재료개론
• 세라믹화학
• 유기공업화학