Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Justus Pawlak
  • Jules Brehme
  • Maximilian Seydi Kilic
  • Kevin Tran
  • Justin Koch
  • Mohammad Beyki
  • Ralf Sindelar
  • Robert Patzke
  • Franz Renz

Organisationseinheiten

Externe Organisationen

  • Hochschule Hannover (HsH)
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Details

OriginalspracheEnglisch
Aufsatznummer1311
Seitenumfang9
FachzeitschriftPolymers
Jahrgang16
Ausgabenummer10
PublikationsstatusVeröffentlicht - 7 Mai 2024

Abstract

Coordination compounds, like iron(II) triazole complexes, exhibit spin crossover (SCO) behavior at around room temperature. Therefore, they are interesting for a variety of possible applications, and it is convenient to integrate them into polymers. Due to a reduction of the iron content and thus also 57Fe content in the sample through integration in polymers, Mössbauer measurements are only possible with greater difficulty or very long measurement times without expensive enrichment of the samples with 57Fe. So, other ways of improving the Mössbauer signal for these composite materials are necessary. Therefore, we pressed these composite materials to improve the Mössbauer spectra. In this study, we synthesized an iron(II) triazole spin crossover complex and an electrospun polymer complex composite nanofiber material including the same complex. For both products, Mössbauer measurements were performed at room temperature before and after using a press to show that the complex composite is not harmed through pressing. We investigate the influence of the pressing impact on the Mössbauer measurements in the context of measurement statistics and the measured signals. We show that pressing is not connected to any changes in the sample regarding the spin and oxidation state. We present that pressing improves the statistics of the Mössbauer measurements significantly. Furthermore, we use SEM measurements and PXRD to investigate whether or not the obtained fiber mats are destroyed in the pressing process.

ASJC Scopus Sachgebiete

Zitieren

Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals. / Pawlak, Justus; Brehme, Jules; Kilic, Maximilian Seydi et al.
in: Polymers, Jahrgang 16, Nr. 10, 1311, 07.05.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Pawlak, J, Brehme, J, Kilic, MS, Tran, K, Koch, J, Beyki, M, Sindelar, R, Patzke, R & Renz, F 2024, 'Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals', Polymers, Jg. 16, Nr. 10, 1311. https://doi.org/10.3390/polym16101311
Pawlak, J., Brehme, J., Kilic, M. S., Tran, K., Koch, J., Beyki, M., Sindelar, R., Patzke, R., & Renz, F. (2024). Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals. Polymers, 16(10), Artikel 1311. https://doi.org/10.3390/polym16101311
Pawlak J, Brehme J, Kilic MS, Tran K, Koch J, Beyki M et al. Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals. Polymers. 2024 Mai 7;16(10):1311. doi: 10.3390/polym16101311
Pawlak, Justus ; Brehme, Jules ; Kilic, Maximilian Seydi et al. / Pressing of Functionalized Polymer Composite Materials to Improve Mössbauer Measurement Signals. in: Polymers. 2024 ; Jahrgang 16, Nr. 10.
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abstract = "Coordination compounds, like iron(II) triazole complexes, exhibit spin crossover (SCO) behavior at around room temperature. Therefore, they are interesting for a variety of possible applications, and it is convenient to integrate them into polymers. Due to a reduction of the iron content and thus also 57Fe content in the sample through integration in polymers, M{\"o}ssbauer measurements are only possible with greater difficulty or very long measurement times without expensive enrichment of the samples with 57Fe. So, other ways of improving the M{\"o}ssbauer signal for these composite materials are necessary. Therefore, we pressed these composite materials to improve the M{\"o}ssbauer spectra. In this study, we synthesized an iron(II) triazole spin crossover complex and an electrospun polymer complex composite nanofiber material including the same complex. For both products, M{\"o}ssbauer measurements were performed at room temperature before and after using a press to show that the complex composite is not harmed through pressing. We investigate the influence of the pressing impact on the M{\"o}ssbauer measurements in the context of measurement statistics and the measured signals. We show that pressing is not connected to any changes in the sample regarding the spin and oxidation state. We present that pressing improves the statistics of the M{\"o}ssbauer measurements significantly. Furthermore, we use SEM measurements and PXRD to investigate whether or not the obtained fiber mats are destroyed in the pressing process.",
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AU - Pawlak, Justus

AU - Brehme, Jules

AU - Kilic, Maximilian Seydi

AU - Tran, Kevin

AU - Koch, Justin

AU - Beyki, Mohammad

AU - Sindelar, Ralf

AU - Patzke, Robert

AU - Renz, Franz

N1 - Publisher Copyright: © 2024 by the authors.

PY - 2024/5/7

Y1 - 2024/5/7

N2 - Coordination compounds, like iron(II) triazole complexes, exhibit spin crossover (SCO) behavior at around room temperature. Therefore, they are interesting for a variety of possible applications, and it is convenient to integrate them into polymers. Due to a reduction of the iron content and thus also 57Fe content in the sample through integration in polymers, Mössbauer measurements are only possible with greater difficulty or very long measurement times without expensive enrichment of the samples with 57Fe. So, other ways of improving the Mössbauer signal for these composite materials are necessary. Therefore, we pressed these composite materials to improve the Mössbauer spectra. In this study, we synthesized an iron(II) triazole spin crossover complex and an electrospun polymer complex composite nanofiber material including the same complex. For both products, Mössbauer measurements were performed at room temperature before and after using a press to show that the complex composite is not harmed through pressing. We investigate the influence of the pressing impact on the Mössbauer measurements in the context of measurement statistics and the measured signals. We show that pressing is not connected to any changes in the sample regarding the spin and oxidation state. We present that pressing improves the statistics of the Mössbauer measurements significantly. Furthermore, we use SEM measurements and PXRD to investigate whether or not the obtained fiber mats are destroyed in the pressing process.

AB - Coordination compounds, like iron(II) triazole complexes, exhibit spin crossover (SCO) behavior at around room temperature. Therefore, they are interesting for a variety of possible applications, and it is convenient to integrate them into polymers. Due to a reduction of the iron content and thus also 57Fe content in the sample through integration in polymers, Mössbauer measurements are only possible with greater difficulty or very long measurement times without expensive enrichment of the samples with 57Fe. So, other ways of improving the Mössbauer signal for these composite materials are necessary. Therefore, we pressed these composite materials to improve the Mössbauer spectra. In this study, we synthesized an iron(II) triazole spin crossover complex and an electrospun polymer complex composite nanofiber material including the same complex. For both products, Mössbauer measurements were performed at room temperature before and after using a press to show that the complex composite is not harmed through pressing. We investigate the influence of the pressing impact on the Mössbauer measurements in the context of measurement statistics and the measured signals. We show that pressing is not connected to any changes in the sample regarding the spin and oxidation state. We present that pressing improves the statistics of the Mössbauer measurements significantly. Furthermore, we use SEM measurements and PXRD to investigate whether or not the obtained fiber mats are destroyed in the pressing process.

KW - composites

KW - coordination chemistry

KW - electrospinning

KW - molecular switch

KW - Mössbauer

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KW - pellet

KW - spin crossover

KW - triazole complexes

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