Detail publikačního výsledku
Immobilized Poly(anthraquinones) for Electrochemical Energy Storage Applications: Structure-Property Relations
WIELEND, D.; SALINAS, Y.; YUMUSAK, C.; SARICIFTCI, N.
Originální název
Immobilized Poly(anthraquinones) for Electrochemical Energy Storage Applications: Structure-Property Relations
Anglický název
Immobilized Poly(anthraquinones) for Electrochemical Energy Storage Applications: Structure-Property Relations
Druh
Článek WoS
Originální abstrakt
The majority of energy storage devices like batteries, fuel cells or electrolyzers require heterogeneous electrodes. Immobilization of redox-active organic molecules by a polymeric approach seems to be a promising route towards organic electrodes for electrocatalytic energy storage or in batteries. Although numerous reports on synthesis and application of new poly-anthraquinones exist, a universal guideline or tool for selection of the best polymer, concerning several energy storage applications, is still underdeveloped. Moving into the direction of developing such a tool, we have selected and synthesized three poly(anthraquinones). NMR, FTIR, UV-Vis, TGA, contact angle measurement and SEM revealed certain structure-property trends, which can be correlated with the performance in the electrochemical investigation. The insights gained within this work demonstrate correlations between the FTIR frequencies and the electrochemical reduction potential, as well as between the polymer hydrophobicity and the electrochemical performance.
Anglický abstrakt
The majority of energy storage devices like batteries, fuel cells or electrolyzers require heterogeneous electrodes. Immobilization of redox-active organic molecules by a polymeric approach seems to be a promising route towards organic electrodes for electrocatalytic energy storage or in batteries. Although numerous reports on synthesis and application of new poly-anthraquinones exist, a universal guideline or tool for selection of the best polymer, concerning several energy storage applications, is still underdeveloped. Moving into the direction of developing such a tool, we have selected and synthesized three poly(anthraquinones). NMR, FTIR, UV-Vis, TGA, contact angle measurement and SEM revealed certain structure-property trends, which can be correlated with the performance in the electrochemical investigation. The insights gained within this work demonstrate correlations between the FTIR frequencies and the electrochemical reduction potential, as well as between the polymer hydrophobicity and the electrochemical performance.
Klíčová slova
Anthraquinones; Electrochemistry; Energy conversion and Storage; Immobilization; Redox-active polymers
Klíčová slova v angličtině
Anthraquinones; Electrochemistry; Energy conversion and Storage; Immobilization; Redox-active polymers
Autoři
WIELEND, D.; SALINAS, Y.; YUMUSAK, C.; SARICIFTCI, N.
Rok RIV
2022
Vydáno
12.11.2021
Nakladatel
WILEY-V C H VERLAG GMBH
Místo
WEINHEIM
ISSN
2196-0216
Periodikum
ChemElectroChem
Svazek
8
Číslo
22
Stát
Spolková republika Německo
Strany od
4360
Strany do
4370
Strany počet
11
URL
BibTex
@article{BUT177283,
author="Dominik {Wielend} and Yolanda {Salinas} and Cigdem {Yumusak} and Niyazi Serdar {Sariciftci}",
title="Immobilized Poly(anthraquinones) for Electrochemical Energy Storage Applications: Structure-Property Relations",
journal="ChemElectroChem",
year="2021",
volume="8",
number="22",
pages="4360--4370",
doi="10.1002/celc.202101315",
issn="2196-0216",
url="https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/celc.202101315"
}