Host Research Group
ES3_Innovative Polymers_David Mecerreyes
David Mecerreyes Molero
+34 943 018018
https://www.polymat.eu/en/groups/innovative-polymers-group
Group description
The Innovative Polymers Group is integrated within POLYMAT Basque Excellency Research Centre at the University of the Basque Country (UPV/EHU). It combines different research activities between organic&polymer chemistry, materials science, physical chemistry, electrochemistry, energy, corrosion and bioelectronics. Our main goal is the development of innovative polymers such as poly(ionic liquid)s, redox polymers, polymer electrolytes, conducting polymers, OMIECs or iongels. We have a highly collaborative spirit and devotion to work together with people interested in the applications of innovative polymers. We are currently developing polymers for emerging technologies such as electrochemical energy storage (batteries), bioelectronics or corrosion.
The group is actually formed by 2 permanent Ikerbasque Researchers (Prof. David Mecerreyes, Prof. Maria Forsyth), 8 postdocs, 15 PhD students and 2-4 undergraduate or master students.
In the last years the group has published regularly in some of the best journals in Polymers/Chemistry/Materials Science such as Progress in Polymer Science, Macromolecules, ACS Macroletters, Polymer Chemistry, Advanced Materials, JACS, Angewandte and Journal of Materials Chemistry A., among others. Our articles are receiving an increasing number of scientific citations (more than 3900 in the last year). The full list of articles can be found in the next link (http://www.polymat.eu/en/groups/innovative-polymers-group) under the section publications).
Keywords
- Poly(ionic) liquids
- Redox polymers
- Polymer electrolytes
- Conducting polymers
- OMIECs
- IOngels
- Electrochemical energy storage
- Batteries
- corrosion
- bioelectronics
Team Description
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David Mecerreyes Molero (Principal Investigator)
ORCID: 0000-0002-0788-7156
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Maria Forsyth (Co-Principal Investigator)
ORCID: 0000-0002-4273-8105
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Irune Villaluenga (Research staff)
ORCID: 0000-0002-1299-2479
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Nerea Casado (Research staff)
ORCID: 0000-0003-0799-5111
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Jorge Luis Olmedo (Post-Doctoral Researcher)
ORCID: 0000-0002-9743-8492
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Nicolas Goujon (Post-Doctoral Researcher)
ORCID: 0000-0002-0555-2846
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Antonela Gallastegui (Post-Doctoral Researcher)
ORCID: 0000-0002-3432-9205
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Miryam Criado (Post-Doctoral Researcher)
ORCID: 0000-0002-5502-892X
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Daniela Minudri (Post-Doctoral Researcher)
ORCID: 0000-0003-1485-9767
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Gabriele Lingua (Post-Doctoral Researcher)
ORCID: 0000-0002-9878-0185
Projects
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SOLID-STATE LITHIUM METAL BATTERY WITH IN SITU HYBRID ELECTROLYTE
Pl: David Mecerreyes
Funding Agency*: EU
Ongoing: yes
Project reference: HE-CL5-CLIMA22/03
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Materiales jerárquicos 3F combinando polímeros iónicos, conductores y redox
Pl: David Mecerreyes
Funding Agency*: NAT
Ongoing: yes
Project reference: MINECOG20/P67
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EUROPEAN TRAINING NETWORK IN INNOVATIVE POLYMERS FOR NEXT-GENERATION ELECTROCHEMICAL ENERGY STORAGE
Pl: David Mecerreyes
Funding Agency*: EU
Ongoing: yes
Project reference: H2020-MSCA-ITN19/01
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SUstainable self-charging power systems developed by INKjet printing
Pl: David Mecerreyes
Funding Agency*: EU
Ongoing: yes
Project reference: HE-CL4-DIGITAL22/01
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Nuevos ánodos poliméricos para baterías de litio-ion a partir de reciclado químico de residuos plásticos de PET
Pl: David Mecerreyes, Haritz Sardon
Funding Agency*: NAT
Ongoing: yes
Project reference: MICINN-PDC21/11
Publications
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F. Makhlooghiazad, L.A. O’Dell, L. Porcarelli, D. Mecerreyes, C. Fosyth, N. Quazi, M. Asadi, O. Hutt, M. Forsyth, J.M.Pringle, = Zwitterionic materials with disorder and placticity and their application as non-volatile solid or liquid electrolytes, Nature Materials, 2022
https://doi.org/10.1038/s41563-021-01130-z -
Luque GC,Picchio ML,Martins APS,Dominguez A,Ramos N,del Agua I,Marchiori B,Mecerreyes D,Minari RJ,Tome LC, = 3D Printable and Biocompatible Iongels for Body Sensor Applications, Adv. Electron. Mater, 2022
https://doi.org/10.1002/aelm.202100178 -
Olazabal I,Goujon N,Mantione D,Alvarez M,Jehanno C,Mecerreyes D,Sardon H., = From plastic waste to new materials for energy storage., Polym. Chem, 2022
https://doi.org/10.1039/D2PY00592A -
Criado M,Dominguez A,Lopez N,Alegret N,Mecerreyes, = Additive Manufacturing of Conducting Polymers: Recent Advances, Challenges, and Opportunities, ACS Appl. Polymer Mat, 2021
https://doi.org/10.1021/acsapm.1c00252 -
Tome LC,Porcarelli L,Bara JE,Forsyth M,Mecerreyes D., = Emerging iongel materials towards applications in energy and bioelectronics, Mater. horizons., 2021
https://doi.org/10.1039/D1MH01263K
Research Lines
ADVANCED MATERIALS AND PROCESSES
New polymer materials for bioelectronics
Ionic polymers are today key materials in many high-tech applications due to their ionic/electronic properties. Recent developments in poly(ionic) liquids have expanded its properties and applications. However, ionic polymers are still showing drawbacks such as low conductivity of protons at high temperature, lack of polymer electrolytes that conduct cations other than lithium, limited ionic/electronic mixed conductivity values or lack of bioactivity and biocompatibility.
IPG aims at developing a new generation of ionic polymers that overcome the real limitations of existing materials for emerging applications in bioelectronics.
ENERGY EFFICIENCY
New polymers for next generation batteries
Ionic polymers are today key materials in many high-tech applications due to their ionic/electronic properties. Recent developments in poly(ionic) liquids have expanded its properties and applications. However, ionic polymers are still showing drawbacks such as low conductivity of protons at high temperature, lack of polymer electrolytes that conduct cations other than lithium, limited ionic/electronic mixed conductivity values or lack of bioactivity and biocompatibility.
IPG aims at developing a new generation of ionic polymers that overcome the real limitations of existing materials for emerging energy applications.
Ongoing EU project(IONBIKE): IONGELS: FROM NEW CHEMISTRY TOWARD EMERGING APPLICATIONS (GA ID: 823989).