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Ewha University

자연과학대학

김경곤(金慶坤) 교수

화학·나노과학전공

김경곤 프로필 사진
김경곤 교수는 2003년 고려대학교 화학과에서 진정일 교수로부터 고분자화학 박사학위를 받았으며, 2003년부터 2006년까지 Wake Forest University와 Yale University에서 박사후과정으로 유기태양전지와 하이브리드 광전 소재에 연구를 수행하였다. 그후 2006년부터 2012년까지 한국과학기술연구원 태양전지 연구센터에서 선임연구원 및 책임연구원으로 유기태양전지 연구를 수행하였으며, 2012년부터 현재까지 화학·나노과학전공에 재직중이다. 김경곤 교수는 주로 유기반도체 소재가 가지는 광학적, 전기적 특성을 연구하고 이를 광전소자에 응용하는 연구를 하고 있다.
  • 스마트 나노융복합소재 연구소장
  • 종합과학관 현대자동차동 D409호
  • 02-3277-3429
연구실적
  • Enhancing Reproducibility in Organic Solar Cell Fabrication via Static Sequential Deposition with Cross-Linked Polymer Donor and Nonfullerene Acceptor ACS Applied Polymer Materials, 2024, v.6 no.10, 5814-5821
    SCIE Scopus dColl.
  • Vacuum-Processed Propylene Urea Additive: A Novel Approach for Controlling the Growth of CH3NH3PbI3 Crystals in All Vacuum-Processed Perovskite Solar Cells ACS Applied Materials and Interfaces, 2024, v.16 no.17, 21915-21923
    SCIE Scopus dColl.
  • Critical Role of Non-Halogenated Solvent Additives in Eco-Friendly and Efficient All-Polymer Solar Cells Polymers, 2023, v.15 no.6, 1354
    SCIE Scopus dColl.
  • High-Efficiency Structural Coloration Enabled by Defect-Free Block Copolymer Self-Assembly for a Solar Cell Distributed Bragg Reflector Advanced Optical Materials, 2023, v.11 no.24, 2301357
    SCIE Scopus dColl.
  • High-Performance Semitransparent Color Organic Photodiodes Enabled by Integrating Fabry–Perot and Solution-Processed Distributed Bragg Reflectors Advanced Materials Interfaces, 2023, v.10 no.31, 2300421
    SCIE Scopus dColl.
  • Improving the Stability of Non-fullerene-Based Organic Photovoltaics through Sequential Deposition and Utilization of a Quasi-orthogonal Solvent ACS Applied Materials and Interfaces, 2023, v.15 no.16, 20151-20158
    SCIE Scopus dColl.
  • Opportunities and Challenges for Perovskite Solar Cells Based on Vacuum Thermal Evaporation Advanced Materials Technologies, 2023, v.8 no.20, 2200928
    SCIE Scopus dColl.
  • A highly efficient and transparent luminescent solar concentrator based on a nanosized metal cluster luminophore anchored on polymers JOURNAL OF MATERIALS CHEMISTRY C, 2022, v.10 no.11, 4402-4410
    SCIE dColl.
  • High-Efficiency Vivid Color CIGS Solar Cell Employing Nondestructive Structural Coloration Solar RRL, 2022, v.6 no.4, 2100965
    SCIE Scopus dColl.
  • Immobilization of Conjugated Polymer Domains for Highly Stable Non-Fullerene-Based Organic Solar Cells ACS Applied Materials and Interfaces, 2022, v.14 no.20, 23474-23486
    SCIE Scopus dColl.
  • Linear polyurethane ionenes for stable interlayer of organic photovoltaics Journal of Power Sources, 2022, v.542, 231772
    SCIE Scopus dColl.
  • Modifying Frank-Kasper Mesophases by Modulating Chain Configuration in PDMS- b-PTFEA Copolymers Macromolecules, 2022, v.55 no.18, 8049-8057
    SCIE Scopus dColl.
  • Solution-Processed TiO2 Nanoparticles Functionalized with Catechol Derivatives as Electron Transporting Layer Materials for Organic Photovoltaics Advanced Materials Interfaces, 2022, v.9 no.14, 2200118
    SCIE Scopus dColl.
  • Vacuum-Processed Perovskite Solar Cells: Materials and Methods SOLAR RRL, 2022, v.6 no.11, 2200623
    SCIE Scopus dColl.
  • Energy recycling under ambient illumination for internet-of-things using metal/oxide/metal-based colorful organic photovoltaics Nanotechnology, 2021, v.32 no.46, 465401
    SCIE Scopus dColl.
  • Quantum dot assisted luminescent hexarhenium cluster dye for a transparent luminescent solar concentrator SCIENTIFIC REPORTS, 2021, v.11 no.1, 13833
    SCIE Scopus dColl.
  • Simultaneous Improvement of Efficiency and Stability of Non-Fullerene-Based Organic Solar Cells Via Sequential Deposition of Single Donor and Binary Acceptor SOLAR RRL, 2021, v.5 no.10, 2100592
    SCIE Scopus dColl.
  • Improving the Photostability of Small-Molecule-Based Organic Photovoltaics by Providing a Charge Percolation Pathway of Crystalline Conjugated Polymer POLYMERS, 2020, v.12 no.11, 2598
    SCIE Scopus dColl.
  • Lamellar Orientation and Transition Behavior of PS-b-P2VP Copolymers Supported on Physically Adsorbed Layers MACROMOLECULES, 2020, v.53 no.15, 6213-6219
    SCIE Scopus dColl.
  • Panchromatically Responsive Organic Photodiodes utilizing a Noninvasive Narrowband Color Electrode ACS APPLIED MATERIALS & INTERFACES, 2020 , 53012-53020
    SCIE Scopus dColl.
  • Stacked layer to gyroid structures in partially fluorinated PS-B-PTBMA copolymer films Journal of Photopolymer Science and Technology, 2020, v.33 no.5, 523-528
    SCIE Scopus dColl.
  • Synthesis and Opto-Electrical Properties of Novel Conjugated Small Molecule Bearing a B <- N Moiety MACROMOLECULAR RESEARCH, 2020, v.28 no.10, 919-924
    SCIE Scopus KCI dColl.
  • Active-Material-Independent Color-Tunable Semitransparent Organic Solar Cells ACS APPLIED MATERIALS & INTERFACES, 2019, v.11 no.21, 18887-18895
    SCIE Scopus dColl.
  • Effects of Organic Cations on Carrier Transport at the Interface between Perovskites and Electron Transport Layers in (FA,MA)SnI3 Solar Cells JOURNAL OF PHYSICAL CHEMISTRY C, 2019, v.123 no.51, 30833-30841
    SCIE Scopus dColl.
  • Reducing Burn-In Loss of Organic Photovoltaics by a Robust Electron-Transporting Layer ADVANCED MATERIALS INTERFACES, 2019, v.6 no.12, 1900213
    SCIE Scopus dColl.
  • Solution-Processed PEDOT:PSS/MoS2 Nanocomposites as Efficient Hole-Transporting Layers for Organic Solar Cells NANOMATERIALS, 2019, v.9 no.9, 1328
    SCIE dColl.
  • Efficient and Reproducible CH3NH3PbI3 Perovskite Layer Prepared Using a Binary Solvent Containing a Cyclic Urea Additive ACS APPLIED MATERIALS & INTERFACES, 2018, v.10 no.11, 9390-9397
    SCIE Scopus dColl.
  • Reducing Trap-Assisted Recombination in Small Organic Molecule-Based Photovoltaics by the Addition of a Conjugated Block Copolymer MACROMOLECULAR RAPID COMMUNICATIONS, 2018, v.39 no.5
    SCIE Scopus dColl.
  • Semitransparent Blue, Green, and Red Organic Solar Cells Using Color Filtering Electrodes ADVANCED OPTICAL MATERIALS, 2018, v.6 no.13
    SCIE Scopus dColl.
  • Synthesis of organic semiconductor bearing B <- N bridged thienylthiazole and diketopyrrolopyrrole for the applicaton of high open-circuit voltage organic photovoltaics DYES AND PIGMENTS, 2018, v.149, 858-866
    SCIE Scopus dColl.
  • Ternary Organic Photovoltaics Prepared by Sequential Deposition of Single Donor and Binary Acceptors ACS APPLIED MATERIALS & INTERFACES, 2018, v.10 no.33, 27757-27763
    SCIE Scopus dColl.
  • Formation of Thermally Stable Bulk Heterojunction by Reducing the Polymer and Fullerene Intermixing Scientific Reports, 2017, v.7 no.1
    SCIE Scopus dColl.
  • Ternary solvent for CH3NH3PbI3 perovskite films with uniform domain size PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2017, v.19 no.2, 1143-1150
    SCIE Scopus dColl.
  • Thermally stable bulk heterojunction prepared by sequential deposition of nanostructured polymer and fullerene Polymers, 2017, v.9 no.9
    SCIE Scopus dColl.
  • Di(2-pyridyl)ketone stabilized titanium dioxide nanoparticles for the room temperature processed electron transporting layer in organic photovoltaics Organic Electronics: physics, materials, applications, 2016, v.28, 281-286
    SCIE Scopus dColl.
  • Improving thermal stability of organic photovoltaics via constructing interdiffused bilayer of polymer/fullerene POLYMER, 2016, v.103, 132-139
    SCIE Scopus dColl.
  • Low-Temperature-Processed 9% Colloidal Quantum Dot Photovoltaic Devices through Interfacial Management of p-n Heterojunction ADVANCED ENERGY MATERIALS, 2016, v.6 no.8
    SCIE Scopus dColl.
  • Mie Resonance-Modulated Spatial Distributions of Photogenerated Carriers in Poly(3-hexylthiophene-2,5-diyl)/Silicon Nanopillars SCIENTIFIC REPORTS, 2016, v.6
    SCIE Scopus dColl.
  • Near infrared organic photodetector utilizing a double electron blocking layer OPTICS EXPRESS, 2016, v.24 no.22, 25308-25316
    SCIE Scopus dColl.
  • Organic Photovoltaics Utilizing a Polymer Nanofiber/Fullerene Interdigitated Bilayer Prepared by Sequential Solution Deposition JOURNAL OF PHYSICAL CHEMISTRY C, 2016, v.120 no.24, 12933-12940
    SCIE Scopus dColl.
  • Reduced graphene oxide wrapped core-shell metal nanowires as promising flexible transparent conductive electrodes with enhanced stability Nanoscale, 2016, v.8 no.45, 18938-18944
    SCIE Scopus dColl.
  • Toward high efficiency organic photovoltaic devices with enhanced thermal stability utilizing P3HT-b-P3PHT block copolymer additives JOURNAL OF MATERIALS CHEMISTRY A, 2016, v.4 no.47, 18432-18443
    SCIE Scopus dColl.
  • Chalcopyrite thin films and solar cells prepared by using selenoamide as a selenium source Thin Solid Films, 2015, v.574, 207-215
    SCIE Scopus dColl.
  • Completely Transparent Conducting Oxide-Free and Flexible Dye-Sensitized Solar Cells Fabricated on Plastic Substrates ACS NANO, 2015, v.9 no.4, 3760-3771
    SCIE Scopus dColl.
  • Effective protection of sequential solution-processed polymer/fullerene bilayer solar cell against charge recombination and degradation Organic Electronics: physics, materials, applications, 2015, v.25, 212-218
    SCIE Scopus dColl.
  • Efficient Organic Photovoltaics Utilizing Nanoscale Heterojunctions in Sequentially Deposited Polymer/fullerene Bilayer SCIENTIFIC REPORTS, 2015, v.5
    SCIE Scopus dColl.
  • High performance inverted polymer solar cells using ultrathin atomic layer deposited TiO2 films Synthetic Metals, 2015, v.207, 31-34
    Scopus dColl.
  • Roughening conjugated polymer surface for enhancing the charge collection efficiency of sequentially deposited polymer/fullerene photovoltaics Polymers, 2015, v.7 no.8, 1497-1509
    SCIE Scopus dColl.
  • Ruthenium based nanostructures driven by morphological controls as efficient counter electrodes for dye-sensitized solar cells Physical Chemistry Chemical Physics, 2015, v.17 no.5, 3004-3008
    SCIE Scopus dColl.
  • Solution processed organic photodetector utilizing an interdiffused polymer/fullerene bilayer OPTICS EXPRESS, 2015, v.23 no.15, A936-A946
    SCIE Scopus dColl.
  • Tailoring of Energy Levels in D-pi-A Organic Dyes via Fluorination of Acceptor Units for Efficient Dye-Sensitized Solar Cells SCIENTIFIC REPORTS, 2015, v.5
    SCIE Scopus dColl.
  • A Facile and Rapid Process to Fabricate Platinum Counter Electrode in Dye-Sensitized Solar Cell Using Nanosecond Pulsed Laser Sintering at Room Temperature JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2014, v.14 no.7, 5309-5312
    SCIE Scopus dColl.
  • Correlation between Polymer Structure and Polymer : Fullerene Blend Morphology and Its Implications for High Performance Polymer Solar Cells JOURNAL OF PHYSICAL CHEMISTRY C, 2014, v.118 no.5, 2237-2244
    SCIE Scopus dColl.
  • Electroless Chemical Grafting of Nitrophenyl Groups on n-Doped Hydrogenated Amorphous Silicon Surfaces JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2014, v.14 no.8, 6309-6313
    SCIE Scopus dColl.
  • Fluorine doped zinc tin oxide multilayer transparent conducting Oxides for organic photovoltaic's Cells Solar Energy Materials and Solar Cells, 2014, v.134, 5-14
    SCIE Scopus dColl.
  • Highly transparent ZTO/Ag/ZTO multilayer electrode deposited by inline sputtering process for organic photovoltaic cells PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 2014, v.211 no.8, 1860-1867
    SCIE Scopus dColl.
  • Morphological investigation of P3HT/PCBM heterojunction and its effects on the performance of bilayer organic solar cells SYNTHETIC METALS, 2014, v.196, 145-150
    SCIE Scopus dColl.
  • Solution processed thin films of Nb-doped TiO2 nanoparticles as hole blocking layer for organic solar cells THIN SOLID FILMS, 2014, v.553, 161-165
    SCIE Scopus dColl.
  • [학술지논문] Cross-Linking-Integrated Sequential Deposition: A Method for Efficient and Reproducible Bulk Heterojunctions in Organic Solar Cells ACS APPLIED MATERIALS & INTERFACES, 2024, v.16 no.41 , 55873-55880
    SCIE
  • [학술지논문] Enhancing Reproducibility in Organic Solar Cell Fabrication via Static Sequential Deposition with Cross-Linked Polymer Donor and Nonfullerene Acceptor ACS Applied Polymer Materials, 2024, v.6 no.10 , 5814-5821
    SCIE
  • [학술지논문] Critical Role of Non-Halogenated Solvent Additives in Eco-Friendly and Efficient All-Polymer Solar Cells POLYMERS, 2023, v.15 no.6 , 1354-1-1354-9
    SCIE
  • [학술지논문] High-Efficiency Structural Coloration Enabled by Defect-Free Block Copolymer Self-Assembly for a Solar Cell Distributed Bragg Reflector ADVANCED OPTICAL MATERIALS, 2023, v.11 no.24 , 230135-230135
    SCIE
  • [학술지논문] High-Performance Semitransparent Color Organic Photodiodes Enabled by Integrating Fabry–Perot and Solution-Processed Distributed Bragg Reflectors ADVANCED MATERIALS INTERFACES, 2023, v.10 no.31 , 2300421-2300421
    SCIE
  • [학술지논문] Improving the Stability of Non-fullerene-Based Organic Photovoltaics through Sequential Deposition and Utilization of a Quasi-orthogonal Solvent ACS APPLIED MATERIALS & INTERFACES, 2023, v.15 no.16 , 20151-20158
    SCIE
  • [학술지논문] A highly efficient and transparent luminescent solar concentrator based on a nanosized metal cluster luminophore anchored on polymers JOURNAL OF MATERIALS CHEMISTRY C, 2022, v.10 no.11 , 4402-4410
    SCI
  • [학술지논문] High-Efficiency Vivid Color CIGS Solar Cell Employing Nondestructive Structural Coloration SOLAR RRL, 2022, v.6 no.4 , 2100965-2100965
    SCIE
  • [학술지논문] Immobilization of Conjugated Polymer Domains for Highly Stable Non-Fullerene-Based Organic Solar Cells ACS APPLIED MATERIALS & INTERFACES, 2022, v.14 no.20 , 23474-23486
    SCI
  • [학술지논문] Linear polyurethane ionenes for stable interlayer of organic photovoltaics JOURNAL OF POWER SOURCES, 2022, v.542 no.9 , 231772-231772
    SCI
  • [학술지논문] Modifying Frank-Kasper Mesophases by Modulating Chain Configuration in PDMS-b-PTFEA Copolymers MACROMOLECULES, 2022, v.55 no.18 , 8049-8057
    SCI
  • [학술지논문] Opportunities and Challenges for Perovskite Solar Cells Based on Vacuum Thermal Evaporation ADVANCED MATERIALS TECHNOLOGIES, 2022, v.1 no.1 , 2200928-2200928
    SCIE
  • [학술지논문] Solution-Processed TiO2 Nanoparticles Functionalized with Catechol Derivatives as Electron Transporting Layer Materials for Organic Photovoltaics ADVANCED MATERIALS INTERFACES, 2022, v.9 no.14 , 2200118-2200118
    SCIE
  • [학술지논문] Vacuum-Processed Perovskite Solar Cells: Materials and Methods SOLAR RRL, 2022, v.6 no.11 , 2200623-2200623
    SCIE
  • [학술지논문] Improving the Photostability of Small-Molecule-Based Organic Photovoltaics by Providing a Charge Percolation Pathway of Crystalline Conjugated Polymer POLYMERS, 2020, v.12 no.11 , 2598-2598
    SCIE
  • [학술지논문] Lamellar Orientation and Transition Behavior of PS-b-P2VP Copolymers Supported on Physically Adsorbed Layers MACROMOLECULES, 2020, v.53 no.15 , 6213-6219
    SCI
  • [학술지논문] Panchromatically Responsive Organic Photodiodes utilizing a Noninvasive Narrowband Color Electrode ACS APPLIED MATERIALS & INTERFACES, 2020, v.12 no.47 , 53012-53020
    SCI
  • [학술지논문] Reducing Burn-In Loss of Organic Photovoltaics by a Robust Electron-Transporting Layer ADVANCED MATERIALS INTERFACES, 2019, v.6 no.12 , 1900213-1900213
    SCIE
  • [학술발표] Formation of stable heterojunction by sequential solution deposition of conjugated polymer and small molecule EPF European Polymer Congress, 체코, 2022-06-28 EPF European Polymer Congress, 2022
강의
  • 2024-2학기

    • 일반화학실험Ⅱ

      • 학수번호 20419분반 02
      • 1학년 ( 1학점 , 1.5시간) 화 6~6 (종)
      • 자연대, 호크마1, 다음교시까지 진행
    • 화학실험기법II

      • 학수번호 33698분반 04
      • 3학년 ( 2학점 , 3시간) 목 5~6 (종)
      • 영어강의 7교시까지 진행될수 있음
    • 고분자화학Ⅱ

      • 학수번호 37112분반 01
      • 3학년 ( 3학점 , 3시간) 화 3~3 (종) , 목 2~2 (102)
  • 2024-1학기

    • 일반화학Ⅰ

      • 학수번호 20416분반 04
      • 1학년 ( 3학점 , 3시간) 화 5~5 (종A) , 목 6~6 (101)
      • 자연대, 식생공, 화신공, 전자전기공, 지능형반도체공, 기후에너지공, 휴먼기계바이오공, 건축도시공(ABEEK교과목), 컴공, 호크마, 일반화학과 중복수강 불가
    • 일반화학실험Ⅰ

      • 학수번호 20418분반 03
      • 1학년 ( 1학점 , 1.5시간) 수 6~6 (종)
      • 자연대, 호크마, 다음교시까지 진행
    • 일반화학실험Ⅰ

      • 학수번호 20418분반 04
      • 1학년 ( 1학점 , 1.5시간) 수 4~4 (종)
      • 자연대, 호크마, 다음교시까지 진행
    • 일반화학실험Ⅰ

      • 학수번호 20418분반 05
      • 1학년 ( 1학점 , 1.5시간) 금 6~6 (종)
      • 식품생명공, 화신공, 전자전기공, 지능형반도체공, 호크마, 다음교시까지 진행
  • 2023-2학기

  • 2023-1학기

    • 일반화학I 강의 계획서 상세보기

      • 학수번호 20416분반 04
      • 1학년 ( 3학점 , 3시간) 화 6~6 (종A) , 목 4~4 (101)
      • ABEEK 자연대, 화신공1, 식공1, 환경1, 호크마1, 컴공1, 기후·에너지1, 일반화학과 중복수강 불가
    • 에너지·환경소재

      • 학수번호 G15653분반 01
      • 학년 ( 3학점 , 3시간) 월 5~6 (종D108)
  • 2022-1학기

    • 일반화학

      • 학수번호 20415분반 03
      • 1학년 ( 3학점 , 3시간) 화 7~7 (종A) , 금 6~6 (102)
      • 자연대, 기후1, 호크마1, 일반화학I과 중복수강 불가
    • 일반화학실험I

      • 학수번호 20418분반 07
      • 1학년 ( 1학점 , 1.5시간) 화 6~6 (종)
      • 식공1, 화신공1, 환경1, 호크마1, 다음교시까지 진행
    • 일반화학실험I

      • 학수번호 20418분반 08
      • 1학년 ( 1학점 , 1.5시간) 수 6~6 (종)
      • 식공1, 화신공1, 환경1, 호크마1, 다음교시까지 진행
    • 고분자화학Ⅰ

      • 학수번호 37111분반 02
      • 3학년 ( 3학점 , 3시간) 수 3~3 , 금 2~2
      • 팀티칭
    • 연구III

      • 학수번호 G10111분반 01
      • 학년 ( 3학점 , 6시간) 토 1~4
      • 영어강의
    • 세미나I

      • 학수번호 G12402분반 01
      • 학년 ( 1학점 , 1시간) 목 7~7
      • 영어강의
  • 2021-2학기

    • 화학실험기법II

      • 학수번호 33698분반 03
      • 3학년 ( 2학점 , 3시간) 수 5~6 (종)
      • 영어강의 7교시까지 진행될수 있음, 전 기간 대면수업(강의계획안 참조)
    • 화학실험기법II

      • 학수번호 33698분반 04
      • 3학년 ( 2학점 , 3시간) 목 6~7 (종)
      • 영어강의 8교시까지 진행될수 있음, 전 기간 대면수업(강의계획안 참조)
    • 고분자화학Ⅱ

      • 학수번호 37112분반 01
      • 3학년 ( 3학점 , 3시간) 수 3~3 , 금 2~2
      • 팀티칭
    • 세미나IV

      • 학수번호 G12874분반 01
      • 학년 ( 1학점 , 1시간) 수 7~7 (종)
      • 영어강의
  • 2021-1학기

    • 일반화학I

      • 학수번호 20416분반 05
      • 1학년 ( 3학점 , 3시간) 수 3~3 , 금 2~2
      • 영어강의,ABEEK 자연대, 건도시1, 호크마1, 일반화학과 중복수강 불가
    • 일반화학실험I

      • 학수번호 20418분반 07
      • 1학년 ( 1학점 , 1.5시간) 화 6~6 (종)
      • 식공1, 화신공1, 환경1, 호크마1, 다음교시까지 진행
    • 일반화학실험I

      • 학수번호 20418분반 08
      • 1학년 ( 1학점 , 1.5시간) 수 6~6 (종)
      • 식공1, 화신공1, 환경1, 호크마1, 다음교시까지 진행
    • 고분자화학Ⅰ

      • 학수번호 37111분반 02
      • 3학년 ( 3학점 , 3시간) 화 3~3 , 목 2~2
      • 팀티칭
    • 고급연구Ⅰ

      • 학수번호 G10113분반 01
      • 학년 ( 3학점 , 6시간) 토 5~8 (종D109)
      • 영어강의
학력

고려대학교(서울) 이학박사(화학)