Andrew Naylor

Unlocking high capacities of graphite anodes for potassium-ion batteries

Carboni, Marco; Naylor, Andrew J.; Valvo, Mario; Younesi, Reza

Part of RSC Advances, p. 21070-21074, 2019

• DOI for Unlocking high capacities of graphite anodes for potassium-ion batteries
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Degradation Mechanisms in Li₂VO₂F Li-Rich Disordered Rock-Salt Cathodes

Källquist, Ida; Naylor, Andrew J.; Baur, Christian; Chable, Johann et al.

Part of Chemistry of Materials, p. 6084-6096, 2019

• DOI for Degradation Mechanisms in Li₂VO₂F Li-Rich Disordered Rock-Salt Cathodes
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Understanding charge compensation mechanisms in Na_0.56Mg_0.04Ni_0.19Mn_0.70O₂

Ma, Le Anh; Massel, Felix; Naylor, Andrew J.; Duda, Laurent et al.

Part of Communications Chemistry, 2019

• DOI for Understanding charge compensation mechanisms in Na_0.56Mg_0.04Ni_0.19Mn_0.70O₂
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Temperature dependence of electrochemical degradation in LiNi_1/3Mn_1/3Co_1/3O₂/Li₄Ti₅O₁₂ cells

Björklund, Erik; Naylor, Andrew J.; Brant, William; Brandell, Daniel et al.

Part of Energy Technology, 2019

• DOI for Temperature dependence of electrochemical degradation in LiNi_1/3Mn_1/3Co_1/3O₂/Li₄Ti₅O₁₂ cells

Energy-tuned photoelectron spectroscopy of lithium-ion battery cathodes: revealing oxygen redox activity and investigating new materials

Naylor, Andrew J.; Maibach, Julia; Källquist, Ida; Makkos, Eszter et al.

Part of ECS Meeting Abstracts MA2018-02 AiMES 2018 Meeting, 2018

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Influence of Battery Electrode Chemistry on Electrolyte Decomposition

Dettmann, Lasse; Colbin, Lars Olow Simon; Naylor, Andrew J.

Part of Advanced Materials Interfaces, 2025

• DOI for Influence of Battery Electrode Chemistry on Electrolyte Decomposition
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Influence of bis(2,2,2-trifluoroethyl) carbonate flame retarding co-solvent on interfacial chemistry in carbonate ester lithium-ion battery electrolytes

Baghban Shemirani, Mohammad; Gebert, Florian; Naylor, Andrew J.

Part of RSC applied interfaces, p. 764-771, 2025

• DOI for Influence of bis(2,2,2-trifluoroethyl) carbonate flame retarding co-solvent on interfacial chemistry in carbonate ester lithium-ion battery electrolytes
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Investigation of Electrolyte Salts in Non‐Flammable Triethyl Phosphate for Sodium‐Ion Batteries

van Ekeren, Wessel; Dettmann, Lasse; Tesfamhret, Yonas; Naylor, Andrew J. et al.

Part of Batteries & Supercaps, 2025

• DOI for Investigation of Electrolyte Salts in Non‐Flammable Triethyl Phosphate for Sodium‐Ion Batteries
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Formation and Evolution of the Solid Electrolyte Interphase on Silicon Electrodes from Fluorine-Free Electrolytes

Lu, Zijie; Patranika, Tamara; Naylor, Andrew J.; Mindemark, Jonas et al.

Part of Small, 2025

• DOI for Formation and Evolution of the Solid Electrolyte Interphase on Silicon Electrodes from Fluorine-Free Electrolytes
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The Origin of Rapid Capacity Loss in 1,1,1‐Trifluoroethyl Methyl Carbonate – Based Lithium‐Ion Battery Electrolytes

Gebert, Florian; Gogoi, Neeha; Siriwardena, Dumindu P.; Naylor, Andrew J.

Part of Advanced Materials Interfaces, 2024

• DOI for The Origin of Rapid Capacity Loss in 1,1,1‐Trifluoroethyl Methyl Carbonate – Based Lithium‐Ion Battery Electrolytes
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Influence of Battery Electrode Chemistry on Electrolyte Decomposition

Dettmann, Lasse; Colbin, Lars Olow Simon; Naylor, Andrew J.

Part of Advanced Materials Interfaces, 2025

• DOI for Influence of Battery Electrode Chemistry on Electrolyte Decomposition
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Influence of bis(2,2,2-trifluoroethyl) carbonate flame retarding co-solvent on interfacial chemistry in carbonate ester lithium-ion battery electrolytes

Baghban Shemirani, Mohammad; Gebert, Florian; Naylor, Andrew J.

Part of RSC applied interfaces, p. 764-771, 2025

• DOI for Influence of bis(2,2,2-trifluoroethyl) carbonate flame retarding co-solvent on interfacial chemistry in carbonate ester lithium-ion battery electrolytes
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Investigation of Electrolyte Salts in Non‐Flammable Triethyl Phosphate for Sodium‐Ion Batteries

van Ekeren, Wessel; Dettmann, Lasse; Tesfamhret, Yonas; Naylor, Andrew J. et al.

Part of Batteries & Supercaps, 2025

• DOI for Investigation of Electrolyte Salts in Non‐Flammable Triethyl Phosphate for Sodium‐Ion Batteries
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Formation and Evolution of the Solid Electrolyte Interphase on Silicon Electrodes from Fluorine-Free Electrolytes

Lu, Zijie; Patranika, Tamara; Naylor, Andrew J.; Mindemark, Jonas et al.

Part of Small, 2025

• DOI for Formation and Evolution of the Solid Electrolyte Interphase on Silicon Electrodes from Fluorine-Free Electrolytes
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The Origin of Rapid Capacity Loss in 1,1,1‐Trifluoroethyl Methyl Carbonate – Based Lithium‐Ion Battery Electrolytes

Gebert, Florian; Gogoi, Neeha; Siriwardena, Dumindu P.; Naylor, Andrew J.

Part of Advanced Materials Interfaces, 2024

• DOI for The Origin of Rapid Capacity Loss in 1,1,1‐Trifluoroethyl Methyl Carbonate – Based Lithium‐Ion Battery Electrolytes
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Interaction of Boron-Based Cross-Linkers with Polymer Binders for Silicon Anodes in Lithium-Ion Batteries

Patranika, Tamara; Märker, Katharina; Paul, Subhradip; Naylor, Andrew J. et al.

Part of ACS Applied Polymer Materials, p. 12429-12440, 2024

• DOI for Interaction of Boron-Based Cross-Linkers with Polymer Binders for Silicon Anodes in Lithium-Ion Batteries
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Exploring the Failure Mechanisms and Embrittlement of Liquid Metal-Coated Zinc Anodes in Aqueous Zn-Ion Batteries

Görlin, Mikaela; Le Ruyet, Ronan; Naylor, Andrew J.; Valvo, Mario

Part of ACS Applied Energy Materials, p. 6548-6559, 2024

• DOI for Exploring the Failure Mechanisms and Embrittlement of Liquid Metal-Coated Zinc Anodes in Aqueous Zn-Ion Batteries
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Interfacial Decomposition Behaviour of Triethyl Phosphate‐Based Electrolytes for Lithium‐Ion Batteries

Gebert, Florian; Lundström, Robin; van Ekeren, Wessel; Naylor, Andrew J.

Part of Batteries & Supercaps, 2024

• DOI for Interfacial Decomposition Behaviour of Triethyl Phosphate‐Based Electrolytes for Lithium‐Ion Batteries
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Enabling a non-flammable methyl(2,2,2-trifluoroethyl) carbonate electrolyte in NMC622-graphite Li-ion cells by electrode pre-passivation

Longhini, Matilde; Gebert, Florian; Conti, Fosca; Naylor, Andrew J.

Part of Energy Advances, p. 1087-1091, 2024

• DOI for Enabling a non-flammable methyl(2,2,2-trifluoroethyl) carbonate electrolyte in NMC622-graphite Li-ion cells by electrode pre-passivation
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An electrochemical evaluation of state-of-the-art non-flammable liquid electrolytes for high-voltage lithium-ion batteries

Gebert, Florian; Longhini, Matilde; Conti, Fosca; Naylor, Andrew J.

Part of Journal of Power Sources, 2023

• DOI for An electrochemical evaluation of state-of-the-art non-flammable liquid electrolytes for high-voltage lithium-ion batteries
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Photovoltaic Wafering Silicon Kerf Loss as Raw Material: Example of Negative Electrode for Lithium‐Ion Battery

Heintz, Mads C.; Grins, Jekabs; Jaworski, Aleksander; Svensson, Gunnar et al.

Part of ChemElectroChem, 2023

• DOI for Photovoltaic Wafering Silicon Kerf Loss as Raw Material: Example of Negative Electrode for Lithium‐Ion Battery
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Study of the Electrochemical and Self-healing Processes of Galinstan as an Anode Material for Li-ion Batteries

Mohimont, Florent; Le Ruyet, Ronan; Younesi, Reza; Naylor, Andrew J.

Part of Journal of the Electrochemical Society, 2023

• DOI for Study of the Electrochemical and Self-healing Processes of Galinstan as an Anode Material for Li-ion Batteries
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Assessing Coulombic Efficiency in Lithium Metal Anodes

Mohammadi, Abdolkhaled; Djafer, Sabrine; Sayegh, Syreina; Naylor, Andrew J. et al.

Part of Chemistry of Materials, p. 2381-2393, 2023

• DOI for Assessing Coulombic Efficiency in Lithium Metal Anodes

Optimization of Sodium Bis(oxalato)borate (NaBOB) in Triethyl Phosphate (TEP) by Electrolyte Additives

Welch, Jonas; Mogensen, Ronnie; van Ekeren, Wessel; Eriksson, Henrik et al.

Part of Journal of the Electrochemical Society, 2022

• DOI for Optimization of Sodium Bis(oxalato)borate (NaBOB) in Triethyl Phosphate (TEP) by Electrolyte Additives
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Are Polymer‐Based Electrolytes Ready for High‐Voltage Lithium Battery Applications? An Overview of Degradation Mechanisms and Battery Performance

Cabañero Martínez, Maria Angeles; Boaretto, Nicola; Naylor, Andrew J.; Alcaide, Francisco et al.

Part of Advanced Energy Materials, p. 2201264-2201264, 2022

• DOI for Are Polymer‐Based Electrolytes Ready for High‐Voltage Lithium Battery Applications? An Overview of Degradation Mechanisms and Battery Performance
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Electrochemical Sodiation and Desodiation of Gallium

Le Ruyet, Ronan; Kullgren, Jolla; Naylor, Andrew J.; Younesi, Reza

Part of Journal of the Electrochemical Society, 2022

• DOI for Electrochemical Sodiation and Desodiation of Gallium
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Non-flammable liquid electrolytes for safe batteries

Gond, Ritambhara; van Ekeren, Wessel; Mogensen, Ronnie; Naylor, Andrew J. et al.

Part of Materials Horizons, p. 2913-2928, 2021

• DOI for Non-flammable liquid electrolytes for safe batteries

A Halogen‐Free and Flame‐Retardant Sodium Electrolyte Compatible with Hard Carbon Anodes

Colbin, Simon; Mogensen, Ronnie; Buckel, Alexander; Wang, Yong‐Lei et al.

Part of Advanced Materials Interfaces, 2021

• DOI for A Halogen‐Free and Flame‐Retardant Sodium Electrolyte Compatible with Hard Carbon Anodes
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Strategies for Mitigating Dissolution of Solid Electrolyte Interphases in Sodium-Ion Batteries

Ma, Le Anh; Naylor, Andrew J.; Nyholm, Leif; Younesi, Reza

Part of Angewandte Chemie International Edition, p. 4855-4863, 2021

• DOI for Strategies for Mitigating Dissolution of Solid Electrolyte Interphases in Sodium-Ion Batteries
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2021 roadmap for sodium-ion batteries

Tapia-Ruiz, Nuria; Armstrong, A. Robert; Alptekin, Hande; Amores, Marco A. et al.

Part of Journal of Physics, 2021

• DOI for 2021 roadmap for sodium-ion batteries
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A Lignosulfonate Binder for Hard Carbon Anodes in Sodium-Ion Batteries: A Comparative Study

Gond, Ritambhara; Asfaw, Habtom Desta; Hosseinaei, Omid; Edström, Kristina et al.

Part of ACS Sustainable Chemistry and Engineering, p. 12708-12717, 2021

• DOI for A Lignosulfonate Binder for Hard Carbon Anodes in Sodium-Ion Batteries: A Comparative Study
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A comparison of high voltage outgassing of LiCoO2, LiNiO2, and Li2MnO3 layered Li-ion cathode materials

Papp, Joseph K.; Li, Ning; Kaufman, Lori A.; Naylor, Andrew J. et al.

Part of Electrochimica Acta, 2021

• DOI for A comparison of high voltage outgassing of LiCoO2, LiNiO2, and Li2MnO3 layered Li-ion cathode materials

Surface engineering strategy using urea to improve the rate performance of Na₂Ti₃O₇ in Na-ion batteries

Costa, Sara I. R.; Choi, Yong-Seok; Fielding, Alistair J.; Naylor, Andrew J. et al.

Part of Chemistry - A European Journal, p. 3875-3886, 2021

• DOI for Surface engineering strategy using urea to improve the rate performance of Na₂Ti₃O₇ in Na-ion batteries
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Single source precursor route to iron sulfide nanomaterials for energy storage

Lozano, Juan G.; Dillon, Frank; Naylor, Andrew J.; Lee, Lok Yi et al.

Part of Chemical Physics Letters, 2020

• DOI for Single source precursor route to iron sulfide nanomaterials for energy storage

Elimination of Fluorination: The Influence of Fluorine-Free Electrolytes on the Performance of LiNi1/3Mn1/3Co1/3O2/Silicon-Graphite Li-Ion Battery Cells

Hernández, Guiomar; Naylor, Andrew J.; Chien, Yu-Chuan; Brandell, Daniel et al.

Part of ACS Sustainable Chemistry and Engineering, p. 10041-10052, 2020

• DOI for Elimination of Fluorination: The Influence of Fluorine-Free Electrolytes on the Performance of LiNi1/3Mn1/3Co1/3O2/Silicon-Graphite Li-Ion Battery Cells
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Influence of Electrolyte Additives on the Degradation of Li2VO2F Li-Rich Cathodes

Källquist, Ida; Martin, Jean-Frederic; Naylor, Andrew J.; Baur, Christian et al.

Part of The Journal of Physical Chemistry C, p. 12956-12967, 2020

• DOI for Influence of Electrolyte Additives on the Degradation of Li2VO2F Li-Rich Cathodes

Stabilization of Li-Rich Disordered Rocksalt Oxyfluoride Cathodes by Particle Surface Modification

Naylor, Andrew J.; Källquist, Ida; Peralta, David; Martin, Jean-Frederic et al.

Part of ACS Applied Energy Materials, p. 5937-5948, 2020

• DOI for Stabilization of Li-Rich Disordered Rocksalt Oxyfluoride Cathodes by Particle Surface Modification
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Understanding the Roles of Tris(trimethylsilyl) Phosphite (TMSPi) in LiNi0.8Mn0.1Co0.1O2 (NMC811)/Silicon-Graphite (Si-Gr) Lithium-Ion Batteries

Liu, Haidong; Naylor, Andrew J.; Menon, Ashok Sreekumar; Brant, William et al.

Part of Advanced Materials Interfaces, 2020

• DOI for Understanding the Roles of Tris(trimethylsilyl) Phosphite (TMSPi) in LiNi0.8Mn0.1Co0.1O2 (NMC811)/Silicon-Graphite (Si-Gr) Lithium-Ion Batteries
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Unlocking high capacities of graphite anodes for potassium-ion batteries

Carboni, Marco; Naylor, Andrew J.; Valvo, Mario; Younesi, Reza

Part of RSC Advances, p. 21070-21074, 2019

• DOI for Unlocking high capacities of graphite anodes for potassium-ion batteries
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Degradation Mechanisms in Li₂VO₂F Li-Rich Disordered Rock-Salt Cathodes

Källquist, Ida; Naylor, Andrew J.; Baur, Christian; Chable, Johann et al.

Part of Chemistry of Materials, p. 6084-6096, 2019

• DOI for Degradation Mechanisms in Li₂VO₂F Li-Rich Disordered Rock-Salt Cathodes
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Improved cycling stability in high-capacity Li-rich vanadium containing disordered rock salt oxyfluoride cathodes

Baur, Christian; Källquist, Ida; Chable, Johann; Chang, Jin Hyun et al.

Part of Journal of Materials Chemistry A, p. 21244-21253, 2019

• DOI for Improved cycling stability in high-capacity Li-rich vanadium containing disordered rock salt oxyfluoride cathodes
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Understanding charge compensation mechanisms in Na_0.56Mg_0.04Ni_0.19Mn_0.70O₂

Ma, Le Anh; Massel, Felix; Naylor, Andrew J.; Duda, Laurent et al.

Part of Communications Chemistry, 2019

• DOI for Understanding charge compensation mechanisms in Na_0.56Mg_0.04Ni_0.19Mn_0.70O₂
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Interfacial Reaction Mechanisms on Graphite Anodes for K-Ion Batteries

Naylor, Andrew J.; Carboni, Marco; Valvo, Mario; Younesi, Reza

Part of ACS Applied Materials and Interfaces, p. 45636-45645, 2019

• DOI for Interfacial Reaction Mechanisms on Graphite Anodes for K-Ion Batteries

Depth-dependent oxygen redox activity in lithium-rich layered oxide cathodes

Naylor, Andrew J.; Makkos, Eszter; Maibach, Julia; Guerrini, Niccolò et al.

Part of Journal of Materials Chemistry A, p. 25355-25368, 2019

• DOI for Depth-dependent oxygen redox activity in lithium-rich layered oxide cathodes
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Temperature dependence of electrochemical degradation in LiNi_1/3Mn_1/3Co_1/3O₂/Li₄Ti₅O₁₂ cells

Björklund, Erik; Naylor, Andrew J.; Brant, William; Brandell, Daniel et al.

Part of Energy Technology, 2019

• DOI for Temperature dependence of electrochemical degradation in LiNi_1/3Mn_1/3Co_1/3O₂/Li₄Ti₅O₁₂ cells

Effect of the Particle-Size Distribution on the Electrochemical Performance of a Red Phosphorus-Carbon Composite Anode for Sodium-Ion Batteries

Capone, Isaac; Hurlbutt, Kevin; Naylor, Andrew J.; Xiao, Albert W. et al.

Part of Energy & Fuels, p. 4651-4658, 2019

• DOI for Effect of the Particle-Size Distribution on the Electrochemical Performance of a Red Phosphorus-Carbon Composite Anode for Sodium-Ion Batteries
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What Triggers Oxygen Loss in Oxygen Redox Cathode Materials?

House, Robert A.; Maitra, Urmimala; Jin, Liyu; Lozano, Juan G. et al.

Part of Chemistry of Materials, p. 3293-3300, 2019

• DOI for What Triggers Oxygen Loss in Oxygen Redox Cathode Materials?

Capacity fading mechanism of tin phosphide anodes in sodium-ion batteries

Mogensen, Ronnie; Maibach, Julia; Naylor, Andrew J.; Younesi, Reza

Part of Dalton Transactions, p. 10752-10758, 2018

• DOI for Capacity fading mechanism of tin phosphide anodes in sodium-ion batteries
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Electrochemically copper-doped bismuth tellurium selenide thin films

Burton, Matthew R.; Naylor, Andrew J.; Nandhakumar, Iris S.

Part of Electrochemistry communications, p. 56-59, 2018

• DOI for Electrochemically copper-doped bismuth tellurium selenide thin films

An industrial perspective on the future of sustainable batteries

Naylor, Andrew J.; Younesi, Reza

Part of Journal of Physics, 2024

Advances in studying interfacial reactions in rechargeable batteries by photoelectron spectroscopy

Källquist, Ida; Le Ruyet, Ronan; Liu, Haidong; Mogensen, Ronnie et al.

Part of Journal of Materials Chemistry A, p. 19466-19505, 2022

• DOI for Advances in studying interfacial reactions in rechargeable batteries by photoelectron spectroscopy
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Solid electrolyte interphase in Na-ion batteries

Ma, Le Anh; Mogensen, Ronnie; Naylor, Andrew J.; Younesi, Reza

Part of Na-ion batteries, p. 243-264, John Wiley & Sons, 2020

Non-Fluorinated Electrolytes for Si-based Li-ion Battery Anodes

Hernández, Guiomar; Naylor, Andrew J.; Mindemark, Jonas; Brandell, Daniel et al.

2019

Energy-tuned photoelectron spectroscopy of lithium-ion battery cathodes: revealing oxygen redox activity and investigating new materials

Naylor, Andrew J.; Maibach, Julia; Källquist, Ida; Makkos, Eszter et al.

Part of ECS Meeting Abstracts MA2018-02 AiMES 2018 Meeting, 2018

• Download full text (pdf) of Energy-tuned photoelectron spectroscopy of lithium-ion battery cathodes: revealing oxygen redox activity and investigating new materials

Graphite for K-ion Batteries: Stability and Formation of SEI layer

Carboni, Marco; Naylor, Andrew J.; Valvo, Mario; Younesi, Reza

2018

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Oxygen redox activity in Na_0.67Ni_0.25Mg_0.05Mn_0.7O₂

Ma, Le Anh; Naylor, Andrew J.; Younesi, Reza

Part of Abstract for 5th international conference of sodium batteries 2018 in St. Malo, France (ICNaB 2018) 12th - 15th November 2018., 2018

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Non-Fluorinated Electrolytes for Si-based Li-ion Battery Anodes

Hernández, Guiomar; Naylor, Andrew J.; Mindemark, Jonas; Brandell, Daniel et al.

2018

Investigation of Electrolyte Salts in Non-Flammable Triethyl Phosphate for Sodium-Ion Batteries

van Ekeren, Wessel; Dettmann, Lasse; Tesfamrhet, Yonas; Naylor, Andrew J. et al.