Anke Teichler scite author profile

Atmospheric pressure argon plasma sintering of silver nanoparticle inks was investigated to improve the plasma sintering process in terms of sintering speed, substrate friendliness and technical complexity. Sintering times were reduced to several seconds while achieving similar conductivity values of above 10% compared to bulk silver. Sintering can be carried out under ambient conditions at specific locations without exposing the entire substrate. Plasma sintering at atmospheric pressure exhibits the capability to be used in roll-to-roll production processes

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Combinatorial Screening of Polymer:Fullerene Blends for Organic Solar Cells by Inkjet Printing

Teichler

Eckardt

Hoeppener

et al. 2010

Advanced Energy Materials

103

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Polymer:fullerene blends were screened in a combinatorial approach using inkjet printing thin film libraries for photovoltaic devices. The application of inkjet printing enabled a fast and simple experimental workflow from film preparation to the study of structure‐property‐relationships with a very high material efficiency. Inkjet printing requires less material for the preparation of thin film libraries in comparison to other dispensing techniques, like spin‐coating. Two polymers (PCPDTBT, PSBTBT) and two fullerene derivatives (mono‐PCBM, bis‐PCBM) were investigated in various blend ratios, concentrations, solvent ratios, and film thicknesses. Morphological and optical properties of the inkjet printed films were investigated and compared with spin‐coated films. This study shows the principle of an experimental setup from solution preparation to film characterization for the combinatorial investigation of large polymer:fullerene libraries.

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Anke Teichler

Inkjet printing of organic electronics – comparison of deposition techniques and state-of-the-art developments

Localized atmospheric plasma sintering of inkjet printed silver nanoparticles

Combinatorial Screening of Polymer:Fullerene Blends for Organic Solar Cells by Inkjet Printing

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