Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications

Chi Chu Chen, Cheng Du Yang, Yi Lun Kao, Nan-Fu Chiu

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Abstract

    In this paper, we're binding gold nanoparticles (GNPs) and reduced graphene oxide (rGO) by cystamine (Cys). The PEDOT:PSS mix GNPs/Cys/rGO as a hole transport layer of the solar cell. From the experimental result shows the PEDOT:PSS/GNPs/Cys/rGO/ITO film than ITO film have the best transmittance. It's transmittance was decreased for 1.01% at 545 nm wavelength. The sheet resistance of PEDOT:PSS/GNPs/Cys/rGO/ITO was reduce than PEDOT:PSS/ITO, when it was doped with Gold nanoparticles (GNPs) and rGO on ITO glass. The former is than the latter decreased for 1%. For these reasons due to impact by surface doping of composite plasmonic material.

    Original languageEnglish
    Title of host publicationMetamaterials X
    EditorsPeter Markos, Vladimir Kuzmiak, Tomasz Szoplik
    PublisherSPIE
    Volume9502
    ISBN (Electronic)9781628416237
    DOIs
    Publication statusPublished - 2015 Jan 1
    Event10th SPIE Conference on Metamaterials - Prague, Czech Republic
    Duration: 2015 Apr 152015 Apr 16

    Other

    Other10th SPIE Conference on Metamaterials
    CountryCzech Republic
    CityPrague
    Period15/4/1515/4/16

    Fingerprint

    Organic Solar Cells
    Gold Nanoparticles
    Cystamine
    Graphite
    Graphene
    Plasmonics
    ITO (semiconductors)
    Nanostructures
    Gold
    Oxides
    graphene
    solar cells
    Composite
    Doping (additives)
    gold
    Nanoparticles
    nanoparticles
    composite materials
    oxides
    Composite materials

    ASJC Scopus subject areas

    • Electronic, Optical and Magnetic Materials
    • Condensed Matter Physics
    • Computer Science Applications
    • Applied Mathematics
    • Electrical and Electronic Engineering

    Cite this

    Chen, C. C., Yang, C. D., Kao, Y. L., & Chiu, N-F. (2015). Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications. In P. Markos, V. Kuzmiak, & T. Szoplik (Eds.), Metamaterials X (Vol. 9502). [950214] SPIE. https://doi.org/10.1117/12.2182570

    Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications. / Chen, Chi Chu; Yang, Cheng Du; Kao, Yi Lun; Chiu, Nan-Fu.

    Metamaterials X. ed. / Peter Markos; Vladimir Kuzmiak; Tomasz Szoplik. Vol. 9502 SPIE, 2015. 950214.

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Chen, CC, Yang, CD, Kao, YL & Chiu, N-F 2015, Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications. in P Markos, V Kuzmiak & T Szoplik (eds), Metamaterials X. vol. 9502, 950214, SPIE, 10th SPIE Conference on Metamaterials, Prague, Czech Republic, 15/4/15. https://doi.org/10.1117/12.2182570
    Chen CC, Yang CD, Kao YL, Chiu N-F. Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications. In Markos P, Kuzmiak V, Szoplik T, editors, Metamaterials X. Vol. 9502. SPIE. 2015. 950214 https://doi.org/10.1117/12.2182570
    Chen, Chi Chu ; Yang, Cheng Du ; Kao, Yi Lun ; Chiu, Nan-Fu. / Surface doping of composite plasmonic material by functional graphene nanostructures for organic solar cell applications. Metamaterials X. editor / Peter Markos ; Vladimir Kuzmiak ; Tomasz Szoplik. Vol. 9502 SPIE, 2015.
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    abstract = "In this paper, we're binding gold nanoparticles (GNPs) and reduced graphene oxide (rGO) by cystamine (Cys). The PEDOT:PSS mix GNPs/Cys/rGO as a hole transport layer of the solar cell. From the experimental result shows the PEDOT:PSS/GNPs/Cys/rGO/ITO film than ITO film have the best transmittance. It's transmittance was decreased for 1.01{\%} at 545 nm wavelength. The sheet resistance of PEDOT:PSS/GNPs/Cys/rGO/ITO was reduce than PEDOT:PSS/ITO, when it was doped with Gold nanoparticles (GNPs) and rGO on ITO glass. The former is than the latter decreased for 1{\%}. For these reasons due to impact by surface doping of composite plasmonic material.",
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