Emanuelsson Group
Tailored organic polymers and composites towards a circular society
Our group designs, produces and tests new organic polymers for a greener and more circular society. We are primarily interested in porous polymers in the form of so-called organic framework compounds and porous organic polymers (POPs) and how these can be combined with other (organic) materials into composites. Porous materials are interesting because they enable a variety of applications and in our research, we focus on energy storage and electrocatalysis as well as adsorption and capture of metal ions from aqueous solutions. By combining organic synthesis, material characterization and electrochemistry, we develop structure-property relationships to establish which structures and material properties perform best in various applications. The research takes place in collaboration with other researchers in Sweden and abroad as well as with industrial partners in Sweden and in the Baltic region.
Group members
Publications
Conducting redox polymers for efficient surface immobilization of molecular porphyrin catalysts
Part of RCS Poster Conference 2024., 2024
Influence of Cationic Species on the Electrochemical Performance of Quinone Derivatives
Part of Electrochimica Acta, 2024
Part of ChemPlusChem, 2024
Conducting Redox Polymers as Active Materials in Secondary Batteries
Part of 74th Annual Meeting of the International Society of Electrochemistry, 2023
Molecular volcano plots: thermodynamically sound but kinetically insufficient
2023
Part of Journal of Materials Chemistry A, p. 13923-13931, 2023
Part of Dalton Transactions, p. 10348-10362, 2023
- DOI for Tetraphenylporphyrin electrocatalysts for the hydrogen evolution reaction: applicability of molecular volcano plots to experimental operating conditions
- Download full text (pdf) of Tetraphenylporphyrin electrocatalysts for the hydrogen evolution reaction: applicability of molecular volcano plots to experimental operating conditions
Characterization and catalytic prospects of metalloporphyrin-functionalized conducting polymers
Part of Electrochimica Acta, 2023
2022
Surface immobilization of molecular catalysts using conducting redox polymers
2022
2022
Organic Quinone based Conducting Redox Polymers for Sustainable and Green Energy Storage
Part of European Materials Research Society conference 2022, 2022
Conducting redox polymers for efficient surface immobilization of molecular porphyrin catalysts
2022
2022
2022
Conducting Redox Polymers for Heterogeneous Molecular Catalysis
2022
Part of Electrochimica Acta, 2022
Part of ACS Applied Materials and Interfaces, p. 5349-5356, 2021
- DOI for An Alternative to Carbon Additives: The Fabrication of Conductive Layers Enabled by Soluble Conducting Polymer Precursors – A Case Study for Organic Batteries
- Download full text (pdf) of An Alternative to Carbon Additives: The Fabrication of Conductive Layers Enabled by Soluble Conducting Polymer Precursors – A Case Study for Organic Batteries
Quinone based conducting redox polymer on carbon substrate as electrode material for energy storage
Part of SweGRIDS 10th conference, 2021
Part of ACS Applied Materials and Interfaces, p. 19099-19108, 2021
Part of Electrochimica Acta, 2021
Part of The Journal of Physical Chemistry C, p. 13609-13617, 2020
- DOI for Effect of Cycling Ion and Solvent on the Redox Chemistry of Substituted Quinones and Solvent-Induced Breakdown of the Correlation between Redox Potential and Electron-Withdrawing Power of Substituents
- Download full text (pdf) of Effect of Cycling Ion and Solvent on the Redox Chemistry of Substituted Quinones and Solvent-Induced Breakdown of the Correlation between Redox Potential and Electron-Withdrawing Power of Substituents
Organic Proton Batteries – A Promising Approach for Sustainable Energy Storage
2020
Part of Angewandte Chemie International Edition, p. 9631-9638, 2020
- DOI for An Aqueous Conducting Redox-Polymer-Based Proton Battery that Can Withstand Rapid Constant-Voltage Charging and Sub-Zero Temperatures
- Download full text (pdf) of An Aqueous Conducting Redox-Polymer-Based Proton Battery that Can Withstand Rapid Constant-Voltage Charging and Sub-Zero Temperatures
Part of ChemSusChem, p. 2280-2285, 2020
Part of Journal of Materials Chemistry A, p. 12114-12123, 2020
Conducting Redox Polymer as Organic Anode Material for Polymer-Manganese Secondary Batteries
Part of ChemElectroChem, p. 3336-3340, 2020
Part of ChemSusChem, p. 2105-2105, 2020
Investigating electron transport in a PEDOT/Quinone conducting redox polymer with in situ methods
Part of Electrochimica Acta, p. 277-284, 2019
Part of Organic Battery Days 2019, 2019
The proton trap - a new route to organic energy storage
Part of Organic Battery Days 2019, 2019
2019
Part of Organic Battery Days 2019., 2019
Conducting Redox Polymers as Electrical Energy Storage Materials
2019
Part of ACS Applied Energy Materials, p. 7162-7170, 2019
Part of Electrochemistry communications, 2019
Part of ACS Applied Energy Materials, p. 4486-4495, 2019
The proton trap battery - enabling reversible hydroquinone energy storage in organic electrolytes
Part of SweGRIDS annual conference 2019, 2019
The proton trap – a new route to high potential organic energy storage
2018
Electronic properties of a PEDOT/Quinone Conducting Redox Polymer
2018
Conducting Redox Polymer Batteries
2018
Flexible All Organic Batteries Based on Conducting Redox Polymers
Part of MRS Fall meeting 2018, 2018
Quinone-Substituted Conducting Polymers as Electrode Materials for All-Organic Proton Batteries
2018
In Situ Methods for Understanding Charge Transport in a Conducting Redox Polymer
Part of Materials Research Society. Fall meeting 2018. Boston, 2018
Part of MRS Fall meeting 2018, 2018
Organiska batterier för hållbar och ökad energi-effektivitet i lokal energilagring
2018
Quinone redox potential tuning and characterization of quinone-PEDOT as a lithium cathode
Part of Gordon Research Conference and Seminar: ElectronicProcesses in Organic Materials. 2018, 2018
Conducting Redox Polymer Batteries
2018
Organic Batteries Based on Quinone-Substituted Conducting Polymers
2017
Quinone based conducting redox polymers for electrical energy storage
Part of Russian journal of electrochemistry, p. 8-15, 2017