Green and Scalable Biopolymer‐Based Aqueous Polyelectrolyte Complexes for Zinc‐Ion Charge Storage Devices

Dr. Amparo Fernández‐Benito; Juan Carlos Martinez‐López; Dr. Mohammad Javad Jafari; Dr. Niclas Solin; Dr. Jose G. Martinez; Daniel Garcia‐Gimenez; Dr. Thomas Ederth; Prof. Olle Inganäs; Dr. Javier Carretero‐González

doi:10.1002/celc.202300327

ChemElectroChem (Nov 2023)

Green and Scalable Biopolymer‐Based Aqueous Polyelectrolyte Complexes for Zinc‐Ion Charge Storage Devices

Dr. Amparo Fernández‐Benito,
Juan Carlos Martinez‐López,
Dr. Mohammad Javad Jafari,
Dr. Niclas Solin,
Dr. Jose G. Martinez,
Daniel Garcia‐Gimenez,
Dr. Thomas Ederth,
Prof. Olle Inganäs,
Dr. Javier Carretero‐González

Affiliations

Dr. Amparo Fernández‐Benito: Institute of Polymer Science and Technology (ICTP) CSIC 28006 Madrid Spain
Juan Carlos Martinez‐López: Institute of Polymer Science and Technology (ICTP) CSIC 28006 Madrid Spain
Dr. Mohammad Javad Jafari: Department of Physics, Chemistry and Biology Linköping University 58183 Linköping Sweden
Dr. Niclas Solin: Department of Physics, Chemistry and Biology Linköping University 58183 Linköping Sweden
Dr. Jose G. Martinez: Department of Physics, Chemistry and Biology Linköping University 58183 Linköping Sweden
Daniel Garcia‐Gimenez: Institute of Polymer Science and Technology (ICTP) CSIC 28006 Madrid Spain
Dr. Thomas Ederth: Department of Physics, Chemistry and Biology Linköping University 58183 Linköping Sweden
Prof. Olle Inganäs: Department of Physics, Chemistry and Biology Linköping University 58183 Linköping Sweden
Dr. Javier Carretero‐González: Institute of Polymer Science and Technology (ICTP) CSIC 28006 Madrid Spain

DOI: https://doi.org/10.1002/celc.202300327
Journal volume & issue: Vol. 10, no. 22
pp. n/a – n/a

Abstract

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Abstract Green and scalable materials are essential to fulfill the need of electrification for transitioning into a fossil‐fuels free society, and sustainability is a requirement for all new technologies. Rechargeable batteries are one of the most important elements for electrification, enabling the transition to mobile electronics, electrical vehicles and grid storage. We here report synthesis and characterization of polyelectrolyte complexes of alginate and chitosan, both biopolymers deriving from the sea, for transport of zinc ions in hydrogel electrolytes. We have used vibrational spectroscopy, thermal measurements and microscopy, as well as transport measurements with ohmic or blocking contacts. The transference number for zinc ions is close to 1, the conductivity is ≈10 mS/cm, with stability at Zn interfaces seen through 7000 cycles in symmetric zinc//zinc cell.

Published in ChemElectroChem

ISSN: 2196-0216 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Industrial electrochemistry; Science: Chemistry
Website: https://chemistry-europe.onlinelibrary.wiley.com/journal/21960216

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