Correction to: Transparent conductive organic-inorganic hybrid composites based on Ag nanowires
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CORRECTION
Correction to: Transparent conductive organic-inorganic hybrid composites based on Ag nanowires Katharina Lang1 Matthias Klein1 Gerhard Domann1 Peer Löbmann ●
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© Springer Science+Business Media, LLC, part of Springer Nature 2020
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Correction to: Journal of Sol-Gel Science and Technology https://doi.org/10.1007/s10971-020-05330-y The author would like to correct the errors in the publication of the original article. The corrected details are given below. (a). The units for specific resistance has been corrected as “[Ω cm]” in line 3 of Table 1. (b). The units for specific resistance has been corrected as “[Ω cm]” in line 6 of 17th paragraph of section “Results and discussion”.
Table 1 Properties of different AgNW composite films Matrix system
Silicone
Nonpolar hybrid
Polar hybrid
Treatment temperature [°C] Film thickness [µm]
220 330
230 290
250 225
Sheet resistance [Ω□] Specific resistance [Ω cm]
4.58 1.51E−04
4.84 1.40E−04
7.23 1.63E−04
Transmittance at 550 nm [%]
79
76
63
The original article can be found online at https://doi.org/10.1007/ s10971-020-05330-y. * Peer Löbmann [email protected] 1
Fraunhofer-Institut für Silicatforschung, Neunerplatz 2, 97082 Würzburg, Germany
The above data show excellent results regarding processing parameters and optoelectronic properties. While TCOs require high posttreatment temperatures exceeding 300 °C the silver nanowire composites can be cured and activated at lower temperatures. Furthermore, a comparison of the specific resistances (~1 × 10−4 Ω cm) with the commonly used conductive oxides illustrates good electrical properties for technical performances and are in no way inferior to them [37]. The original article has been corrected.
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