Influence of Poly(Diketopyrrolopyrrole) Chain Length and Chemical Structure on Photocatalytic Hydrogen Evolution in Composites With TiO₂

DOI zum Zitieren der Version auf EPub Bayreuth: https://doi.org/10.15495/EPub_UBT_00008990
URN to cite this document: urn:nbn:de:bvb:703-epub-8990-0

Title data

Mauerer, Teresa ; Hungenberg, Julian ; Thelakkat, Mukundan ; Marschall, Roland:
Influence of Poly(Diketopyrrolopyrrole) Chain Length and Chemical Structure on Photocatalytic Hydrogen Evolution in Composites With TiO₂.
In: Journal of Polymer Science. Vol. 63 (2025) Issue 21 . - pp. 4684-4697.
ISSN 2642-4169
DOI der Verlagsversion: https://doi.org/10.1002/pol.20250175

	Format: PDF Name: Journal of Polymer Science - 2025 - Mauerer - Influence of Poly Diketopyrrolopyrrole Chain Length and Chemical Structure.pdf Version: Published Version Available under License Creative Commons BY 4.0: Attribution
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Abstract

For this study, we have synthesized two different poly(diketopyrrolopyrrole) copolymers with different chain lengths. The diketopyrrolopyrrole (DPP) core is substituted with oligoethylene glycol side chains to increase its compatibility with water and copolymerized with either fluorene or carbazole moieties. The polymers form a composite photocatalyst with anatase TiO2. Detailed characterization such as NMR spectroscopy, UV?Vis, DRIFT, and UPS is used to analyze the structural and optical properties as well as the frontier orbital energy levels of the components and the composite materials. The optical properties of the polymers are tunable with respect to the copolymer used, opening up the possibility of optimizing the photocatalytic activity. These composite materials (without the addition of a co-catalyst) provide up to an eightfold enhancement of the hydrogen evolution reaction (HER) compared to pristine TiO2. The polymers also exhibit stability in the reaction medium as shown by solid-state NMR, DRIFT, and UV?Vis spectroscopy. A significant influence of the chain length of the polymers on HER is found as well. As the chain length increases, the activity toward hydrogen evolution increases. We show a correlation between hydrogen evolution and PDPP chain length whereby the active site of the photocatalytic process remains the inorganic semiconductor.

Further data

Item Type:	Article in a journal
Keywords:	heterojunction; hydrogen generation; photocatalysis; polymers
DDC Subjects:	500 Science > 540 Chemistry
Institutions of the University:	Faculties Faculties > Faculty of Biology, Chemistry and Earth Sciences Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Chair Physical Chemistry III - Sustainable Materials for Solar Energy Conversion Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Chair Physical Chemistry III - Sustainable Materials for Solar Energy Conversion > Chair Physical Chemistry III - Sustainable Materials for Solar Energy Conversion - Univ.-Prof. Dr. Roland Marschall Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Professor Applied Functional Polymers > Professor Applied Functional Polymers - Univ.-Prof. Dr. Mukundan Thelakkat Research Institutions > Affiliated Institutes > Bavarian Polymer Institute (BPI) Graduate Schools Graduate Schools > Elite Network Bavaria Graduate Schools > Elite Network Bavaria > Macromolecular Science Faculties > Faculty of Biology, Chemistry and Earth Sciences > Department of Chemistry > Professor Applied Functional Polymers Research Institutions Research Institutions > Affiliated Institutes
Language:	English
Originates at UBT:	Yes
URN:	urn:nbn:de:bvb:703-epub-8990-0
Date Deposited:	16 Mar 2026 13:49
Last Modified:	16 Mar 2026 13:49
URI:	https://epub.uni-bayreuth.de/id/eprint/8990

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