Rassmus Andersson
PhD student at Institutionen för kemi - Ångström; Strukturkemi
- E-mail:
- rassmus.andersson@kemi.uu.se
- Visiting address:
- Lägerhyddsvägen 1
- Postal address:
- Box 538
751 21 Uppsala
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Publications
Recent publications
- Limitations of polyacrylic acid binders when employed in thick LNMO Li-ion battery electrodes (2024)
- Quantifying the ion coordination strength in polymer electrolytes (2022)
- Designing Polyurethane Solid Polymer Electrolytes for High-Temperature Lithium Metal Batteries (2022)
- Polyester-ZrO2 Nanocomposite Electrolytes with High Li Transference Numbers for Ambient Temperature All-Solid-State Lithium Batteries (2021)
- Ion Coordination and Transport in Magnesium Polymer Electrolytes Based on Polyester-co-Polycarbonate (2021)
All publications
Articles
- Limitations of polyacrylic acid binders when employed in thick LNMO Li-ion battery electrodes (2024)
- Quantifying the ion coordination strength in polymer electrolytes (2022)
- Designing Polyurethane Solid Polymer Electrolytes for High-Temperature Lithium Metal Batteries (2022)
- Polyester-ZrO2 Nanocomposite Electrolytes with High Li Transference Numbers for Ambient Temperature All-Solid-State Lithium Batteries (2021)
- Ion Coordination and Transport in Magnesium Polymer Electrolytes Based on Polyester-co-Polycarbonate (2021)
- Micro versus Nano (2020)
- Coordination Effects in Polymer Electrolytes (2020)
- Influence of molecular weight and end groups on ion transport in weakly and strongly coordinating polymer electrolytes
- Implementation of Highly Crystalline Polyketones as Solid Polymer Electrolytes in high-temperature Lithium Metal Batteries
- Transference number and Ion coordination strength for Mg2+, Na+ and K+ in solid polymer electrolytes
- The Electrolyte Salt – a Decisive Component for High-Voltage Cycling with Solid Polymer Electrolytes?
- Impossible combination? High Ionic Conductivity and Mechanical Stability in Highly Crystalline Polyketone Electrolytes
- Seeing the unseen: Mg2+, Na+ and K+ transference numbers in post-Li battery electrolytes by electrophoretic nuclear magnetic resonance