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Pyrocatalysis—The DCF assay as a pH-robust tool to determine the oxidation capability of thermally excited pyroelectric powders

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  • Sascha Raufeisen
  • Michael Stelter
  • Patrick Braeutigam

Abstract

Pyrocatalysis uses thermally excited pyroelectric materials for the generation of reactive oxygen species in water. This unique feature allows it to harvest energy in the form of natural temperature gradients or waste heat from industrial processes in order to degrade organic pollutants at low costs. Its further development into an advanced oxidation process for water remediation is dependent on the availability of pH-robust and nonspecific redox assays for the determination of its oxidation capability. Nevertheless, previous studies neglected the influence of pH changes and they were focused mainly on the degradation of one organic compound or specific chemical dosimetries. In this study, a pH-robust and nonspecific reaction protocol of the dichlorofluorescein assay was established for the investigation of the oxidation capability of the pyrocatalytic process. This reaction protocol was tested on three pyroelectric powders (LiNbO3, LiTaO3, BaTiO3) in different amounts and it overcomes major constraints of a previously used dichlorodihydrofluorescein diacetate-based reaction protocol. Instead of its diacetate, dichlorodihydrofluorescein was used as fluorogenic probe and its concentration was drastically reduced to 1 μM. For the first time, these changes enable the determination and comparison of the oxidation capability independently of pH-rising processes, which are present for all investigated pyroelectric powders up to a pH of 11. Additionally, the precision of the dichlorofluorescein assay was drastically increased and the determination and consideration of autoxidation processes was enabled. Of all three pyroelectric powders, BaTiO3 exhibited the highest oxidation capability with a linear increase with respect to the powder amount.

Suggested Citation

  • Sascha Raufeisen & Michael Stelter & Patrick Braeutigam, 2020. "Pyrocatalysis—The DCF assay as a pH-robust tool to determine the oxidation capability of thermally excited pyroelectric powders," PLOS ONE, Public Library of Science, vol. 15(2), pages 1-16, February.
  • Handle: RePEc:plo:pone00:0228644
    DOI: 10.1371/journal.pone.0228644
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    Cited by:

    1. Huilin You & Siqi Li & Yulong Fan & Xuyun Guo & Zezhou Lin & Ran Ding & Xin Cheng & Hao Zhang & Tsz Woon Benedict Lo & Jianhua Hao & Ye Zhu & Hwa-Yaw Tam & Dangyuan Lei & Chi-Hang Lam & Haitao Huang, 2022. "Accelerated pyro-catalytic hydrogen production enabled by plasmonic local heating of Au on pyroelectric BaTiO3 nanoparticles," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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