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Your search keyword '"Sindelar, Ralf Franz"' showing total 5 results
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5 results on '"Sindelar, Ralf Franz"'

1. Thin films with implemented molecular switches for the application in polymer-based optical waveguides

Author

Kilic, Maximilian Seydi, Brehme, Jules, Deja, Yves, Pawlak, Justus, Günther, Axel, Sander, Arthur, Müller, Dietrich, Renz, Antonia, Rajnak, Cyril, Polášková, Michaela, Roth, Bernhard, Sindelar, Ralf Franz, Renz, Franz, Kilic, Maximilian Seydi, Brehme, Jules, Deja, Yves, Pawlak, Justus, Günther, Axel, Sander, Arthur, Müller, Dietrich, Renz, Antonia, Rajnak, Cyril, Polášková, Michaela, Roth, Bernhard, Sindelar, Ralf Franz, and Renz, Franz

Abstract

Complexes like iron (II)-triazoles exhibit spin crossover behavior at ambient temperature and are often considered for possible application. In previous studies, we implemented complexes of this type into polymer nanofibers and first polymer-based optical waveguide sensor systems. In our current study, we synthesized complexes of this type, implemented them into polymers and obtained composites through drop casting and doctor blading. We present that a certain combination of polymer and complex can lead to composites with high potential for optical devices. For this purpose, we used two different complexes [Fe(atrz)3](2ns)2 and [Fe(atrz)3]Cl1.5(BF4)0.5 with different polymers for each composite. We show through transmission measurements and UV/VIS spectroscopy that the optical properties of these composite materials can reversibly change due to the spin crossover effect.

Published
2024

2. Soluble molecular switches in electrospun nanofibers

Author

Brehme, Jules, Kilic, Maximilian Seydi, Pawlak, Justus, Renz, Franz, Sindelar, Ralf Franz, Brehme, Jules, Kilic, Maximilian Seydi, Pawlak, Justus, Renz, Franz, and Sindelar, Ralf Franz

Abstract

Compounds that exhibit the spin crossover effect are known to show a change of spin states through external stimuli. This reversible switching of spin states is accompanied by a change of the properties of the compound. Complexes, like iron (II)-triazole complexes, that exhibit this behavior at ambient temperature are often discussed for potential applications. In previous studies we synthesized iron (II)-triazole complexes and implemented them into electrospun nanofibers. We used Mössbauer spectroscopy in first studies to prove a successful implementation with maintaining spin crossover properties. Further studies from us showed that it is possible to use different electrospinning methods to either do a implementation or a deposition of the synthesized solid SCO material into or onto the polymer nanofibers. We now used a solvent in which both, the used iron (II)-triazole complex [Fe(atrz)3](2 ns)2 and three different polymers (Polyacrylonitrile, Polymethylmethacrylate and Polyvinylpyrrolidone), are soluble. This shall lead to a higher homogeneous distribution of the complex along the nanofibers. Mössbauer spectroscopy and other measurements are therefore in use to show a successful implementation without any significant changes to the complex.

Published
2024

4. Thin films with implemented molecular switches for the application in polymer-based optical waveguides

Author

Kilic, Maximilian Seydi, primary, Brehme, Jules, additional, Deja, Yves, additional, Pawlak, Justus, additional, Günther, Axel, additional, Sander, Arthur, additional, Müller, Dietrich, additional, Renz, Antonia, additional, Rajnak, Cyril, additional, Polášková, Michaela, additional, Roth, Bernhard, additional, Sindelar, Ralf Franz, additional, and Renz, Franz, additional

Published
2024
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