▶ 학력
서울대학교 화학공학과 (공학박사)
서울대학교 화학공학과 (공학석사)
서울대학교 화학공학과 (공학사)

▶ 경력
2000.   - 2002.  : 성균관대학교 고분자기술연구소 선임연구원
2002.04 – 현 재  : 한국교통대학교 나노고분자공학전공 교수

2004.01 – 2006.02: 나노고분자공학과, 학과장

2004.01 – 2006.02: 건설응용화학공학부, 교학부장

2006.06 – 2009.08: 차세대전지 누리사업단, 취업지원부장

2008.03 – 2010.02: 충주대학교 교수회 사무처장

2009.12 – 2011.07: 나노고분자공학과, 학과장

2011.12 – 2013.02: 미국 유티카대학 방문교수

2018.08 – 2020.08: 한국교통대학교 대학교육혁신원장

2002.03 – 현재: 한국고분자학회 종신회원

▶ 연구업적

[학술논문]
- D. Hahn and H. Kim, “The Effect of Reactant Composition on the Synthesis of Resole-Type Phenolic Bead,” Korean Chem.

  Eng. Res., 52(1), 63-67 (2014)
- D. Hahn, D. Kim and H. Kim, “Synthesis of Resol-Type Phenolic Beads via Syspension Polymerization Technique,” Korean

  Chem. Eng. Res., 51(2), 279-284 (2013)
- D. Kim, C. Lee, H. Kim, ”Preperation of nano-sized LiCoO2 powder by the combination of sonication and modified Pechini process,”

  Solid State Sci., 12, 45(2010)
- S. Whang, H. Kim, J. Nam, “Dielectric characterization of unsaturated polyester curing,” Polymer Korea, 26, 728 (2002)
- H. Kim and K. Char, "Effect of Phase Separation on Rheological Properties during the Isothermal Curing of Epoxy Toughened with

  Thermoplastic Polymer," Ind. Eng. Chem. Res., 39(4), 955 (2000).
- H. Kim and K. Char, "Rheological Behavior during the Phase Separation of Thermoset Epoxy/Thermoplastic Polymer Blends,"

  The Korean-Australian Rheology J.. 12(1), 77 (2000)
- 외 다수

[주요 연구 분야]

- Conductive Thermosetting Resin System.

  As a repair material in construction, low temperature curable epoxy resin has been magnified. With conductive

  additives such as carbon black, carbon fiber, graphene, CNT, and so on, conductive thermosetting resin can

  be used in corrosion inhibiting system. Reaction kinetics, modification and dispersion of additives, their

  rheological interpretation, and ion and/or electron conductivities are being studied.
  Activated Carbon Synthesis from Organic Polymers and Their Applications.
- Activated carbon has usually been obtained from pitch or wood, but it is hard to make a typical form such as

  spherical bead from it. Monodisperse polymer beads can be synthesized with suspension, dispersion, or

  emulsion polymerization technique, and they can be carbonized to spherical activated carbon beads. Particles

  of hundreds of Microns can be applied to the reduction of pollutant in water and/or air, whereas those of

  a few microns can be used as an electrode material in Lithium ion batteries.

[전공 및 연구(기술지원)분야]

- 열경화성수지의 경화 거동
- 고분자의 결정화 거동리
- 실리케이트 나노 복합체의 형성 및 유변학적 해석

[기타]
- 열경화성 수지 경화거동의 화학유변학적 해석
- 전도성 복합재료 제조 및 특성평가
- 열경화성 수지를 이용한 구형 마이크로 활성탄소 입자 제조 및 응용
- 나노복합체의 제조 및 유변학적 해석