Flow Synthesis of Silver Nanowires for Semitransparent Solar Cell Electrodes: A Life Cycle Perspective

Nieves Espinosa Martinez, Roar R. Søndergaard, Mikkel Jørgensen, Frederik C Krebs

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Silver nanowires (AgNWs) were prepared on a 5g scale using either the well-known batch synthesis following the polyol method or a new flow synthesis method. The AgNWs were employed as semitransparent electrode materials in organic photovoltaics and compared to traditional printed silver electrodes based on micron sized silver flakes using life cycle analysis and environmental impact analysis methods. The life cycle analysis of AgNWs confirms that they provide an avenue to low-impact semitransparent electrodes. We find that the benefit of AgNWs in terms of embodied energy is less pronounced than generally assumed but that the toxicological and environmental benefits are significant.
Original languageEnglish
JournalChemSusChem (Print)
Volume9
Issue number8
Pages (from-to)893–899
Number of pages8
ISSN1864-5631
DOIs
Publication statusPublished - 2016

Cite this

Espinosa Martinez, Nieves ; Søndergaard, Roar R. ; Jørgensen, Mikkel ; Krebs, Frederik C. / Flow Synthesis of Silver Nanowires for Semitransparent Solar Cell Electrodes: A Life Cycle Perspective. In: ChemSusChem (Print). 2016 ; Vol. 9, No. 8. pp. 893–899.
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abstract = "Silver nanowires (AgNWs) were prepared on a 5g scale using either the well-known batch synthesis following the polyol method or a new flow synthesis method. The AgNWs were employed as semitransparent electrode materials in organic photovoltaics and compared to traditional printed silver electrodes based on micron sized silver flakes using life cycle analysis and environmental impact analysis methods. The life cycle analysis of AgNWs confirms that they provide an avenue to low-impact semitransparent electrodes. We find that the benefit of AgNWs in terms of embodied energy is less pronounced than generally assumed but that the toxicological and environmental benefits are significant.",
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Espinosa Martinez, N, Søndergaard, RR, Jørgensen, M & Krebs, FC 2016, 'Flow Synthesis of Silver Nanowires for Semitransparent Solar Cell Electrodes: A Life Cycle Perspective', ChemSusChem (Print), vol. 9, no. 8, pp. 893–899. https://doi.org/10.1002/cssc.201501437

Flow Synthesis of Silver Nanowires for Semitransparent Solar Cell Electrodes: A Life Cycle Perspective. / Espinosa Martinez, Nieves; Søndergaard, Roar R.; Jørgensen, Mikkel; Krebs, Frederik C.

In: ChemSusChem (Print), Vol. 9, No. 8, 2016, p. 893–899.

Research output: Contribution to journalJournal articleResearchpeer-review

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T1 - Flow Synthesis of Silver Nanowires for Semitransparent Solar Cell Electrodes: A Life Cycle Perspective

AU - Espinosa Martinez, Nieves

AU - Søndergaard, Roar R.

AU - Jørgensen, Mikkel

AU - Krebs, Frederik C

PY - 2016

Y1 - 2016

N2 - Silver nanowires (AgNWs) were prepared on a 5g scale using either the well-known batch synthesis following the polyol method or a new flow synthesis method. The AgNWs were employed as semitransparent electrode materials in organic photovoltaics and compared to traditional printed silver electrodes based on micron sized silver flakes using life cycle analysis and environmental impact analysis methods. The life cycle analysis of AgNWs confirms that they provide an avenue to low-impact semitransparent electrodes. We find that the benefit of AgNWs in terms of embodied energy is less pronounced than generally assumed but that the toxicological and environmental benefits are significant.

AB - Silver nanowires (AgNWs) were prepared on a 5g scale using either the well-known batch synthesis following the polyol method or a new flow synthesis method. The AgNWs were employed as semitransparent electrode materials in organic photovoltaics and compared to traditional printed silver electrodes based on micron sized silver flakes using life cycle analysis and environmental impact analysis methods. The life cycle analysis of AgNWs confirms that they provide an avenue to low-impact semitransparent electrodes. We find that the benefit of AgNWs in terms of embodied energy is less pronounced than generally assumed but that the toxicological and environmental benefits are significant.

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JO - ChemSusChem (Print)

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