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@article{ffa4994f9a0244caa3d050f9eed741d0,
title = "All printed transparent electrodes through an electrical switching mechanism: A convincing alternative to indium-tin-oxide, silver and vacuum",
publisher = "Royal Society of Chemistry",
author = "Larsen-Olsen, {Thue Trofod} and Roar Søndergaard and Kion Norrman and Mikkel Jørgensen and Krebs, {Frederik C}",
year = "2012",
doi = "10.1039/c2ee23244h",
volume = "5",
number = "11",
pages = "9467--9471",
journal = "Energy & Environmental Science",
issn = "1754-5692",

}

RIS

TY - JOUR

T1 - All printed transparent electrodes through an electrical switching mechanism: A convincing alternative to indium-tin-oxide, silver and vacuum

A1 - Larsen-Olsen,Thue Trofod

A1 - Søndergaard,Roar

A1 - Norrman,Kion

A1 - Jørgensen,Mikkel

A1 - Krebs,Frederik C

AU - Larsen-Olsen,Thue Trofod

AU - Søndergaard,Roar

AU - Norrman,Kion

AU - Jørgensen,Mikkel

AU - Krebs,Frederik C

PB - Royal Society of Chemistry

PY - 2012

Y1 - 2012

N2 - Here we show polymer solar cells manufactured using only printing and coating of abundant materials directly on flexible plastic substrates or barrier foil using only roll-to-roll methods. Central to the development is a particular roll-to-roll compatible post-processing step that converts the pristine and non-functional multilayer-coated stack into a functional solar cell through formation of a charge selective interface, in situ, following a short electrical pulse with a high current density. After the fast post-processing step the device stack becomes active and all devices are functional with a technical yield and consistency that is compelling.

AB - Here we show polymer solar cells manufactured using only printing and coating of abundant materials directly on flexible plastic substrates or barrier foil using only roll-to-roll methods. Central to the development is a particular roll-to-roll compatible post-processing step that converts the pristine and non-functional multilayer-coated stack into a functional solar cell through formation of a charge selective interface, in situ, following a short electrical pulse with a high current density. After the fast post-processing step the device stack becomes active and all devices are functional with a technical yield and consistency that is compelling.

U2 - 10.1039/c2ee23244h

DO - 10.1039/c2ee23244h

JO - Energy & Environmental Science

JF - Energy & Environmental Science

SN - 1754-5692

IS - 11

VL - 5

SP - 9467

EP - 9471

ER -