Ho Gyu Yoon

Ho Gyu Yoon

Korea University

Professor

Department of Materials Science and Engineering

Research Area

  • #Materials science
  • #Composite material
  • #Polymer
  • #Inorganic chemistry
  • #Nanocomposite
  • #Graphene
  • #Carbon nanotube
  • #Copolymer
  • #Ionic bonding
  • #Chemistry

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Related papers to
‘ Materials science ‘ : 18

  • Ionic block copolymer doped reduced graphene oxide supports with ultra-fine Pd nanoparticles: strategic realization of ultra-accelerated nanocatalysis

    2015/10

    6.6 Impact Factor

    36 citations

    Kie Yong Cho, Yong Sik Yeom, Heun Young Seo, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1039/C5TA06076A

    • #Materials science
    • #Organic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Doping
    • #Graphene
    • #Copolymer
    • #Ionic bonding
    • #Facilitated diffusion

All papers authored by
‘ Ho Gyu Yoon ’ : 22

  • Ionic block copolymer doped reduced graphene oxide supports with ultra-fine Pd nanoparticles: strategic realization of ultra-accelerated nanocatalysis

    2015/10
    JOURNAL OF MATERIALS CHEMISTRY

    6.6 Impact Factor

    36 citations

    Kie Yong Cho, Yong Sik Yeom, Heun Young Seo, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1039/C5TA06076A

    • #Materials science
    • #Organic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Doping
    • #Graphene
    • #Copolymer
    • #Ionic bonding
    • #Facilitated diffusion

Related papers to
‘ Materials science ‘ : 18

  • Ionic block copolymer doped reduced graphene oxide supports with ultra-fine Pd nanoparticles: strategic realization of ultra-accelerated nanocatalysis

    2015/10
    JOURNAL OF MATERIALS CHEMISTRY

    6.6 Impact Factor

    36 citations

    Kie Yong Cho, Yong Sik Yeom, Heun Young Seo, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1039/C5TA06076A

    • #Materials science
    • #Organic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Doping
    • #Graphene
    • #Copolymer
    • #Ionic bonding
    • #Facilitated diffusion
  • Stable 2D-structured supports incorporating ionic block copolymer-wrapped carbon nanotubes with graphene oxide toward compact decoration of metal nanoparticles and high-performance nano-catalysis

    2016/08
    CARBON

    6.3 Impact Factor

    34 citations

    Kie Yong Cho, Heun Young Seo, Yong Sik Yeom, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1016/J.CARBON.2016.04.049

    • #Materials science
    • #Inorganic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Graphene
    • #Carbon nanotube
    • #Ionic bonding
    • #Dispersion stability
    • #Selective catalytic reduction

Get access to
Contact information

Log in

All papers authored by
‘ Ho Gyu Yoon ’ : 22

  • Ionic block copolymer doped reduced graphene oxide supports with ultra-fine Pd nanoparticles: strategic realization of ultra-accelerated nanocatalysis

    2015/10
    JOURNAL OF MATERIALS CHEMISTRY

    6.6 Impact Factor

    36 citations

    Kie Yong Cho, Yong Sik Yeom, Heun Young Seo, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1039/C5TA06076A

    • #Materials science
    • #Organic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Doping
    • #Graphene
    • #Copolymer
    • #Ionic bonding
    • #Facilitated diffusion
  • Stable 2D-structured supports incorporating ionic block copolymer-wrapped carbon nanotubes with graphene oxide toward compact decoration of metal nanoparticles and high-performance nano-catalysis

    2016/08
    CARBON

    6.3 Impact Factor

    34 citations

    Kie Yong Cho, Heun Young Seo, Yong Sik Yeom, Pradip Kumar, Albert Sung Soo Lee, Kyung Youl Baek, Ho Gyu Yoon

    DOI : 10.1016/J.CARBON.2016.04.049

    • #Materials science
    • #Inorganic chemistry
    • #Catalysis
    • #Oxide
    • #Nanoparticle
    • #Graphene
    • #Carbon nanotube
    • #Ionic bonding
    • #Dispersion stability
    • #Selective catalytic reduction

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