Laser Treatment of ITO and ZnO Nanoparticles for the Production of Thin Conducting Layers on Transparent Substrates

Beitrag in einer Fachzeitschrift
(Originalarbeit)


Details zur Publikation

Autorinnen und Autoren: Baum M, Alexeev I, Schmidt M
Zeitschrift: Journal of Laser Micro Nanoengineering
Verlag: Japan Laser Processing Society (JLPS)
Jahr der Veröffentlichung: 2011
Band: 6
Heftnummer: 3
Seitenbereich: 191--194
ISSN: 1880-0688
Sprache: Englisch


Abstract


Layers of ITO nanoparticles were deposited on soda-lime substrates by spincoating in order to pro-duce conductive transparent electrodes. Different lasers in the UV and mid infrared wavelength re-gion were used for post deposition treatment of the layers to remove stabilizing agents contained in the layers to enhance particle-particle contact and significantly increase conductivities. Irradiation with lasers in the infrared region showed good results in terms of stabilizer removal without unde-sired oxidizing effects to the particle layer. Conductivities of up to 120 S/cm were achieved which is comparable to layer treatment by annealing and a subsequent chemical reducing step.



FAU-Autorinnen und Autoren / FAU-Herausgeberinnen und Herausgeber

Alexeev, Ilya
Lehrstuhl für Photonische Technologien
Baum, Marcus
Lehrstuhl für Photonische Technologien
Schmidt, Michael Prof. Dr.-Ing.
Lehrstuhl für Photonische Technologien


Zusätzliche Organisationseinheit(en)
Erlangen Graduate School in Advanced Optical Technologies


Zitierweisen

APA:
Baum, M., Alexeev, I., & Schmidt, M. (2011). Laser Treatment of ITO and ZnO Nanoparticles for the Production of Thin Conducting Layers on Transparent Substrates. Journal of Laser Micro Nanoengineering, 6(3), 191--194. https://dx.doi.org/10.2961/jlmn.2011.03.0003

MLA:
Baum, Marcus, Ilya Alexeev, and Michael Schmidt. "Laser Treatment of ITO and ZnO Nanoparticles for the Production of Thin Conducting Layers on Transparent Substrates." Journal of Laser Micro Nanoengineering 6.3 (2011): 191--194.

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Zuletzt aktualisiert 2018-11-07 um 00:10