Hyunwoo Kim

Hyunwoo Kim

Korea Advanced Institute of Science and Technology

Associate Professor

Department of Chemistry

Research Area

  • #Chemistry
  • #Catalysis
  • #Organic chemistry
  • #Chirality (chemistry)
  • #Ligand
  • #Stereochemistry
  • #Aryl
  • #Medicinal chemistry
  • #Combinatorial chemistry
  • #Materials science

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Related papers to
‘ Chemistry ‘ : 42

  • Transition-metal-catalyzed C-N bond forming reactions using organic azides as the nitrogen source: a journey for the mild and versatile C-H amination.

    2015/03

    22.1 Impact Factor

    669 citations

    Kwangmin Shin, Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACS.ACCOUNTS.5B00020

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Molecule
    • #Halide
    • #Stoichiometry
    • #Transition metal
    • #Aryl
    • #Amination
    • #Nitrogen source

All papers authored by
‘ Hyunwoo Kim ’ : 52

  • Transition-metal-catalyzed C-N bond forming reactions using organic azides as the nitrogen source: a journey for the mild and versatile C-H amination.

    2015/03
    ACCOUNTS OF CHEMICAL RESEARCH

    22.1 Impact Factor

    669 citations

    Kwangmin Shin, Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACS.ACCOUNTS.5B00020

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Molecule
    • #Halide
    • #Stoichiometry
    • #Transition metal
    • #Aryl
    • #Amination
    • #Nitrogen source

Related papers to
‘ Chemistry ‘ : 42

  • Transition-metal-catalyzed C-N bond forming reactions using organic azides as the nitrogen source: a journey for the mild and versatile C-H amination.

    2015/03
    ACCOUNTS OF CHEMICAL RESEARCH

    22.1 Impact Factor

    669 citations

    Kwangmin Shin, Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACS.ACCOUNTS.5B00020

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Molecule
    • #Halide
    • #Stoichiometry
    • #Transition metal
    • #Aryl
    • #Amination
    • #Nitrogen source
  • Transition Metal-Mediated Direct C-H Amination of Hydrocarbons with Amine Reactants: The Most Desirable but Challenging C-N Bond Formation Approach

    2016/03
    ACS CATALYSIS

    10.6 Impact Factor

    198 citations

    Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACSCATAL.6B00293

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Hydrocarbon
    • #Amine gas treating
    • #Transition metal
    • #Intermolecular force
    • #Nucleophile
    • #Amination
    • #Oxidative coupling of methane

Get access to
Contact information

Log in

All papers authored by
‘ Hyunwoo Kim ’ : 52

  • Transition-metal-catalyzed C-N bond forming reactions using organic azides as the nitrogen source: a journey for the mild and versatile C-H amination.

    2015/03
    ACCOUNTS OF CHEMICAL RESEARCH

    22.1 Impact Factor

    669 citations

    Kwangmin Shin, Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACS.ACCOUNTS.5B00020

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Molecule
    • #Halide
    • #Stoichiometry
    • #Transition metal
    • #Aryl
    • #Amination
    • #Nitrogen source
  • Transition Metal-Mediated Direct C-H Amination of Hydrocarbons with Amine Reactants: The Most Desirable but Challenging C-N Bond Formation Approach

    2016/03
    ACS CATALYSIS

    10.6 Impact Factor

    198 citations

    Hyunwoo Kim, Sukbok Chang

    DOI : 10.1021/ACSCATAL.6B00293

    • #Chemistry
    • #Organic chemistry
    • #Catalysis
    • #Hydrocarbon
    • #Amine gas treating
    • #Transition metal
    • #Intermolecular force
    • #Nucleophile
    • #Amination
    • #Oxidative coupling of methane

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