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| rowspan="2" |Welcome | | rowspan="2" |Welcome | ||
D. Wragg | D. Wragg | ||
D. Brandell | D. Brandell | ||
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| rowspan="5" |10:10 | | rowspan="5" |10:10 | ||
| rowspan="5" |ELMO-LION: Educational Learning Modules on Li-ion Batteries, Li-ion battery course and summer school for PhD students | | rowspan="5" |ELMO-LION: Educational Learning Modules on Li-ion Batteries, Li-ion battery course and summer school for PhD students | ||
Ekatarina Laakso | Ekatarina Laakso - LUT University | ||
LUT University | |||
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|- | |- | ||
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| rowspan="5" |10:35 | | rowspan="5" |10:35 | ||
| rowspan="5" |Specialized Battery Education | | rowspan="5" |Specialized Battery Education | ||
Jonas Mindemark | Jonas Mindemark - University of Uppsala | ||
University of Uppsala | |||
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| rowspan="4" |11:00 | | rowspan="4" |11:00 | ||
| rowspan="4" |Diversity and Equity | | rowspan="4" |Diversity and Equity | ||
Adriana Navarro-Suarez | Adriana Navarro-Suarez - Morrow Batteries | ||
Morrow Batteries | |||
| rowspan="6" |11:00 | | rowspan="6" |11:00 | ||
| rowspan="6" |Adult Education in Battery Value Chain: Opportunities and Challenges | | rowspan="6" |Adult Education in Battery Value Chain: Opportunities and Challenges | ||
Ulla Lassi | Ulla Lassi - University of Oulu | ||
University of Oulu | |||
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|- | |- | ||
| rowspan="4" |11:20 | | rowspan="4" |11:20 | ||
| rowspan="4" |'''From Ph.D. to Industry'''Jonas Sottmann | | rowspan="4" |'''From Ph.D. to Industry'''Jonas Sottmann - ''Hydro'' | ||
''Hydro'' | |||
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| rowspan="4" |11:30 | | rowspan="4" |11:30 | ||
| rowspan="4" |An overview of Emerging Battery Education in Norway | | rowspan="4" |An overview of Emerging Battery Education in Norway | ||
Hanne Flåten Andersen | Hanne Flåten Andersen - IFE | ||
IFE | |||
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| rowspan="4" |11:40 | | rowspan="4" |11:40 | ||
| rowspan="4" |From Ph.D. to Industry | | rowspan="4" |From Ph.D. to Industry | ||
Halvor Høen Hval | Halvor Høen Hval - Morrow Batteries | ||
Morrow Batteries | |||
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| rowspan="6" |12:45 | | rowspan="6" |12:45 | ||
| rowspan="6" |MESC+ | | rowspan="6" |MESC+ | ||
Adiana Navarro-Suarez | Adiana Navarro-Suarez - Morrow Batteries | ||
Morrow Batteries | |||
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|13:00 | |13:00 | ||
|The Interaction and Performance of Boron-Based Self-Healing Binders in Silicon Anodes | |The Interaction and Performance of Boron-Based Self-Healing Binders in Silicon Anodes | ||
Tamara Patranika | Tamara Patranika - Uppsala University | ||
Uppsala University | |||
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|- | |- | ||
|13:05 | |13:05 | ||
|Investigating the Electrochemical Intercalation of Lithium into Prussian White using Operando XRD | |Investigating the Electrochemical Intercalation of Lithium into Prussian White using Operando XRD | ||
Agnes-Matilda Mattson | Agnes-Matilda Mattson - Uppsala University | ||
Uppsala University | |||
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|- | |- | ||
|13:10 | |13:10 | ||
|Following Hard Cabon Sodiation using Small- and Wide-Angle X-ray Scattering | |Following Hard Cabon Sodiation using Small- and Wide-Angle X-ray Scattering | ||
Isak Drevander | Isak Drevander - Chalmers University of Technology | ||
Chalmers University of Technology | |||
| rowspan="5" |13:10 | | rowspan="5" |13:10 | ||
| rowspan="5" |Online Teaching and Life-Long Learning Courses | | rowspan="5" |Online Teaching and Life-Long Learning Courses | ||
Guiomar Hernandez and Andrew Naylor | Guiomar Hernandez and Andrew Naylor - University of Uppsala | ||
University of Uppsala | |||
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|- | |- | ||
|13:15 | |13:15 | ||
|Effect of Coprecipitation Conditions on Fe0.5Mn0.5CO3 Na-ion Cathode Precursor Properties | |Effect of Coprecipitation Conditions on Fe0.5Mn0.5CO3 Na-ion Cathode Precursor Properties | ||
Jere Leinonen | Jere Leinonen - University of Oulu | ||
University of Oulu | |||
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| rowspan="4" |13:35 | | rowspan="4" |13:35 | ||
| rowspan="4" |Interdisciplinary Battery Courses at DTU 2014-present | | rowspan="4" |Interdisciplinary Battery Courses at DTU 2014-present | ||
Johan Hjelm | Johan Hjelm - DTU | ||
DTU | |||
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|14:00 | |14:00 | ||
|Cyanoethyl Cellulose Reinforced Polymerizable Deep Eutectic Solvent Gel Electrolytes for High-energy-density Sodium-ion Batteries | |Cyanoethyl Cellulose Reinforced Polymerizable Deep Eutectic Solvent Gel Electrolytes for High-energy-density Sodium-ion Batteries | ||
Zhichen Ba | Zhichen Ba - Åbo Akademi University | ||
Åbo Akademi University | |||
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|- | |- | ||
|14:05 | |14:05 | ||
|Analyzing the SEI on Commercial Battery Electrodes with Enhanced Raman spectroscopy | |Analyzing the SEI on Commercial Battery Electrodes with Enhanced Raman spectroscopy | ||
Matthijs Holthuijsen | Matthijs Holthuijsen - Beyonder / University of Stavanger | ||
Beyonder / University of Stavanger | |||
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|- | |- | ||
|14:10 | |14:10 | ||
|Understanding Leaching in Battery Electrodes | |Understanding Leaching in Battery Electrodes | ||
Mie Engelbrecht Jensen | Mie Engelbrecht Jensen - DTU Energy | ||
DTU Energy | |||
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|- | |- | ||
|14:15 | |14:15 | ||
|Comparing Electrochemical Discharge Methods for Lithium-ion Battery Recycling | |Comparing Electrochemical Discharge Methods for Lithium-ion Battery Recycling | ||
Arjun Muralidharan | Arjun Muralidharan - Aalto University | ||
Aalto University | |||
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|- | |- | ||
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| rowspan="6" |09:00 | | rowspan="6" |09:00 | ||
| rowspan="6" |Strategies for replacing LiPF<sub>6</sub> salt by LiFSI for various cathodes chemistries, LiFePO<sub>4</sub>, LiNi<sub>x</sub>Mn<sub>y</sub>Co<sub>z</sub>O<sub>2</sub> and LiNi<sub>0.5</sub>Mn<sub>1.5</sub>O<sub>4</sub> | | rowspan="6" |Strategies for replacing LiPF<sub>6</sub> salt by LiFSI for various cathodes chemistries, LiFePO<sub>4</sub>, LiNi<sub>x</sub>Mn<sub>y</sub>Co<sub>z</sub>O<sub>2</sub> and LiNi<sub>0.5</sub>Mn<sub>1.5</sub>O<sub>4</sub> | ||
Ann Mari Svensson | Ann Mari Svensson - ''NTNU'' | ||
''NTNU'' | |||
| rowspan="6" |09:00 | | rowspan="6" |09:00 | ||
| rowspan="6" |Accelerating Battery Material Discovery: Integrating Computational Workflows and Machine Learning | | rowspan="6" |Accelerating Battery Material Discovery: Integrating Computational Workflows and Machine Learning | ||
Juan Maria García Lastra | Juan Maria García Lastra - ''DTU Energy. Danmarks Tekniske Universitet'' | ||
''DTU Energy. Danmarks Tekniske Universitet'' | |||
| rowspan="4" | | | rowspan="4" | | ||
| rowspan="4" | | | rowspan="4" | | ||
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| rowspan="4" |09:30 | | rowspan="4" |09:30 | ||
| rowspan="4" |Scanning Electrochemical Microscopy Meets Optical Microscopy: Probing the Local Paths of Charge Transfer Operando in Booster-Microparticles for Flow Batteries | | rowspan="4" |Scanning Electrochemical Microscopy Meets Optical Microscopy: Probing the Local Paths of Charge Transfer Operando in Booster-Microparticles for Flow Batteries | ||
Jerzy Jasielec | Jerzy Jasielec - ''University of Turku'' | ||
''University of Turku'' | |||
| rowspan="4" |09:30 | | rowspan="4" |09:30 | ||
| rowspan="4" |Electric Vehicles Lithium Ion Battery Circularity – Mitigating Battery Second-life Challenges Through Sustainable Business Model Development | | rowspan="4" |Electric Vehicles Lithium Ion Battery Circularity – Mitigating Battery Second-life Challenges Through Sustainable Business Model Development | ||
Saad Ahmed | Saad Ahmed - ''Norwegian University of Science and Technology'' | ||
''Norwegian University of Science and Technology'' | |||
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|- | |- | ||
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|- | |- | ||
| rowspan="9" |09:40 | | rowspan="9" |09:40 | ||
| rowspan="9" |WMG’s Battery Research Activities: An Overview on Current European Cooperation | | rowspan="9" |'''WMG’s Battery Research Activities: An Overview on Current European Cooperation''' | ||
Ivana Hasa | Ivana Hasa - ''WMG'' | ||
''WMG'' | |||
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|- | |- | ||
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| rowspan="4" |09:50 | | rowspan="4" |09:50 | ||
| rowspan="4" |Lignin batteries | | rowspan="4" |Lignin batteries | ||
Ziyauddin Khan | Ziyauddin Khan - ''Linköping University'' | ||
''Linköping University'' | |||
| rowspan="4" |09:50 | | rowspan="4" |09:50 | ||
| rowspan="4" |Fluorine-free organic batteries with solid polymer electrolytes | | rowspan="4" |Fluorine-free organic batteries with solid polymer electrolytes | ||
Guiomar Hernández | Guiomar Hernández - ''Uppsala University'' | ||
''Uppsala University'' | |||
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|- | |- | ||
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| rowspan="2" |10:10 | | rowspan="2" |10:10 | ||
| rowspan="2" |Hydro Batteries’ Technology Activities | | rowspan="2" |Hydro Batteries’ Technology Activities | ||
Jonas Sottmann | Jonas Sottmann - ''Hydro Batteries'' | ||
''Hydro Batteries'' | |||
| rowspan="2" |10:10 | | rowspan="2" |10:10 | ||
| rowspan="2" |Battery waste to anode-grade graphite: Pioneering sustainable recycling solutions | | rowspan="2" |Battery waste to anode-grade graphite: Pioneering sustainable recycling solutions | ||
Garima Jain | Garima Jain - ''Vianode'' | ||
''Vianode'' | |||
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|- | |- | ||
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| rowspan="4" |11:10 | | rowspan="4" |11:10 | ||
| rowspan="4" |Diagnostics of Safety Hazardous Ageing Conditions for Commercial Lithium-Ion Batteries | | rowspan="4" |Diagnostics of Safety Hazardous Ageing Conditions for Commercial Lithium-Ion Batteries | ||
Preben J. S. Vie | Preben J. S. Vie - ''IFE'' | ||
''IFE'' | |||
| rowspan="4" |11:10 | | rowspan="4" |11:10 | ||
| rowspan="4" |How to ensure safe processing of Li-ion batteries at the end of life? | | rowspan="4" |How to ensure safe processing of Li-ion batteries at the end of life? | ||
Neha Garg | Neha Garg - ''Aalto University'' | ||
''Aalto University'' | |||
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| rowspan="4" |11:30 | | rowspan="4" |11:30 | ||
| rowspan="4" |Uniform Li Deposition Formed by Lithophilic SiO2 Dopped Porous 3D Carbon Host for High Energy Density Li Metal Anode | | rowspan="4" |Uniform Li Deposition Formed by Lithophilic SiO2 Dopped Porous 3D Carbon Host for High Energy Density Li Metal Anode | ||
Sara Hamed | Sara Hamed - ''Aalto University'' | ||
''Aalto University'' | |||
| rowspan="4" |11:30 | | rowspan="4" |11:30 | ||
| rowspan="4" |Rational Design and Controllable Synthesis of SiOx Anode Materials from Diatom-SiO2 Nanostructures for Lithium-Ion Batteries | | rowspan="4" |Rational Design and Controllable Synthesis of SiOx Anode Materials from Diatom-SiO2 Nanostructures for Lithium-Ion Batteries | ||
Kesavan Thangaian | Kesavan Thangaian - ''Functional Materials and Materials Chemistry (FACET), Department of Materials Science and Engineering, NTNU'' | ||
''Functional Materials and Materials Chemistry (FACET), Department of Materials Science and Engineering, NTNU'' | |||
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| rowspan="2" |11:50 | | rowspan="2" |11:50 | ||
| rowspan="2" |Decarbonizing the battery supply chain | | rowspan="2" |Decarbonizing the battery supply chain | ||
Hans Ivar Laukli | Hans Ivar Laukli - ''Freyr Battery'' | ||
''Freyr Battery'' | |||
| rowspan="2" |11:50 | | rowspan="2" |11:50 | ||
| rowspan="2" |The impact of cation distribution among LLZO and PEO phases on Li-ion structure-dynamic properties | | rowspan="2" |The impact of cation distribution among LLZO and PEO phases on Li-ion structure-dynamic properties | ||
Melania Kozdra | Melania Kozdra - ''Uppsala University'' | ||
''Uppsala University'' | |||
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| rowspan="12" |Lunch | | rowspan="12" |Lunch | ||
Lunch Seminar: Operando XRD in the Home Lab | Lunch Seminar: Operando XRD in the Home Lab | ||
Dennis Becker | |||
''Bruker AXS'' | Dennis Becker - ''Bruker AXS'' | ||
| rowspan="12" |12:10 | | rowspan="12" |12:10 | ||
| rowspan="12" |Lunch | | rowspan="12" |Lunch | ||
Lunch Seminar: Advanced Battery Cycling: Tackling Challenges with the new BioLogic BCS-900 Series and BT-Lab 2 | Lunch Seminar: Advanced Battery Cycling: Tackling Challenges with the new BioLogic BCS-900 Series and BT-Lab 2 | ||
Christophe Morin | |||
''Cromocol Scandinavia AB'' | Christophe Morin - ''Cromocol Scandinavia AB -'' ''BioLogic SAS'' | ||
''BioLogic SAS'' | |||
| rowspan="12" |12:00 | | rowspan="12" |12:00 | ||
| rowspan="12" |Lunch Pickup | | rowspan="12" |Lunch Pickup | ||
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| rowspan="6" |13:00 | | rowspan="6" |13:00 | ||
| rowspan="6" |Atomic layer deposition to enhance lithium-ion battery electrode interfacial properties and behavior | | rowspan="6" |Atomic layer deposition to enhance lithium-ion battery electrode interfacial properties and behavior | ||
Filipp Obrezkov | Filipp Obrezkov - ''Aalto University'' | ||
''Aalto University'' | |||
| rowspan="6" |13:10 | | rowspan="6" |13:10 | ||
| rowspan="6" |Investigation of degradation effects in NASICON Materials for Aqueous Sodium Batteries | | rowspan="6" |Investigation of degradation effects in NASICON Materials for Aqueous Sodium Batteries | ||
Jurgis Pilipavicius | Jurgis Pilipavicius - ''Center for Physical Sciences and Technology, Vilnius, Lithuania'' | ||
''Center for Physical Sciences and Technology, Vilnius, Lithuania'' | |||
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| rowspan="4" |13:30 | | rowspan="4" |13:30 | ||
| rowspan="4" |NyBat – new batteries from recycled material | | rowspan="4" |NyBat – new batteries from recycled material | ||
Martina Petranikova | Martina Petranikova - ''Chalmers University of Technology'' | ||
''Chalmers University of Technology'' | |||
| rowspan="4" |13:40 | | rowspan="4" |13:40 | ||
| rowspan="4" |Solid electrolyte interphases on model Si electrodes studied by electrochemical impedance spectroscopy | | rowspan="4" |Solid electrolyte interphases on model Si electrodes studied by electrochemical impedance spectroscopy | ||
Jonas Grill | Jonas Grill - ''University of Stavanger'' | ||
''University of Stavanger'' | |||
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| rowspan="4" |13:50 | | rowspan="4" |13:50 | ||
| rowspan="4" |Operando and in situ transmission electron microscopy: exploring real-time nanoscale phenomena of battery materials | | rowspan="4" |Operando and in situ transmission electron microscopy: exploring real-time nanoscale phenomena of battery materials | ||
Calliope Bazioti | Calliope Bazioti - ''University of Oslo'' | ||
''University of Oslo'' | |||
| rowspan="4" |14:00 | | rowspan="4" |14:00 | ||
| rowspan="4" |Sustainable Membranes for Redox Flow Batteries | | rowspan="4" |Sustainable Membranes for Redox Flow Batteries | ||
Amirreza Khataee | Amirreza Khataee - ''KTH Royal Institute of Technology'' | ||
''KTH Royal Institute of Technology'' | |||
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| rowspan="4" |14:10 | | rowspan="4" |14:10 | ||
| rowspan="4" |Graphene integration in Si/Graphite anode for high-energy Li-ion batteries | | rowspan="4" |Graphene integration in Si/Graphite anode for high-energy Li-ion batteries | ||
Ilham Bezza | Ilham Bezza - ''Aarhus University'' | ||
''Aarhus University'' | |||
| rowspan="4" |14:20 | | rowspan="4" |14:20 | ||
| rowspan="4" |Functional binders to tackle transition metal dissolution in LNMO cathode material | | rowspan="4" |Functional binders to tackle transition metal dissolution in LNMO cathode material | ||
Le Thuy Truong | Le Thuy Truong - ''SINTEF Industry'' | ||
''SINTEF Industry'' | |||
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| rowspan="2" |14:30 | | rowspan="2" |14:30 | ||
| rowspan="2" |SEEL Swedish Electric Transport Laboratory: brand-new centre for research, development, and innovation within electromobility | | rowspan="2" |SEEL Swedish Electric Transport Laboratory: brand-new centre for research, development, and innovation within electromobility | ||
Nataliia Mozhzhukhina | Nataliia Mozhzhukhina - ''SEEL'' | ||
''SEEL'' | |||
| rowspan="6" |14:40 | | rowspan="6" |14:40 | ||
| rowspan="6" |Coffee Break | | rowspan="6" |Coffee Break | ||
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| rowspan="6" |15:00 | | rowspan="6" |15:00 | ||
| rowspan="6" |Enhancing NCM<sub>111</sub> Cathode Performance with Sustainable Al<sub>2</sub>O<sub>3</sub> Coating via Ethanol-Based Wet-Chemical Synthesis | | rowspan="6" |Enhancing NCM<sub>111</sub> Cathode Performance with Sustainable Al<sub>2</sub>O<sub>3</sub> Coating via Ethanol-Based Wet-Chemical Synthesis | ||
Gints Kucinskis | Gints Kucinskis - ''University of Latvia'' | ||
''University of Latvia'' | |||
| rowspan="6" |15:00 | | rowspan="6" |15:00 | ||
| rowspan="6" |'''Combining operando synchrotron and neutron diffraction for studies of prototype Li-ion batteries'''Poul Ægidius Norby | | rowspan="6" |'''Combining operando synchrotron and neutron diffraction for studies of prototype Li-ion batteries'''Poul Ægidius Norby - ''Technical University of Denmark'' | ||
''Technical University of Denmark'' | |||
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| rowspan="4" |15:30 | | rowspan="4" |15:30 | ||
| rowspan="4" |Developing advanced separators with tailored properties for lithium-sulfur (Li-S) batteries | | rowspan="4" |Developing advanced separators with tailored properties for lithium-sulfur (Li-S) batteries | ||
Tor Olav Sunde | Tor Olav Sunde - ''SINTEF Industry, dept. Sustainable Energy Technology'' | ||
''SINTEF Industry, dept. Sustainable Energy Technology'' | |||
| rowspan="4" |15:30 | | rowspan="4" |15:30 | ||
| rowspan="4" |Overcoming interfacial challenges for non-flammable battery electrolytes | | rowspan="4" |Overcoming interfacial challenges for non-flammable battery electrolytes | ||
Andrew Naylor | Andrew Naylor - ''Uppsala University'' | ||
''Uppsala University'' | |||
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| rowspan="4" |15:50 | | rowspan="4" |15:50 | ||
| rowspan="4" |Scalable micron-sized amorphous silicon nitride for Li-ion battery anode | | rowspan="4" |Scalable micron-sized amorphous silicon nitride for Li-ion battery anode | ||
Jan Petter Mæhlen | Jan Petter Mæhlen - ''Department for Battery Technology, IFE'' | ||
''Department for Battery Technology, IFE'' | |||
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| rowspan="4" |16:10 | | rowspan="4" |16:10 | ||
| rowspan="4" |Compton scattering and density functional theory investigations of cathode materials for Sodium ion batteries | | rowspan="4" |Compton scattering and density functional theory investigations of cathode materials for Sodium ion batteries | ||
Assa Aravindh | Assa Aravindh Sasikaladevi - ''Research unit of sustainable chemistry (SusChem), University of Oulu'' | ||
''Research unit of sustainable chemistry (SusChem), University of Oulu'' | |||
| rowspan="4" |16:10 | | rowspan="4" |16:10 | ||
| rowspan="4" |Lignin-based hard carbon as anode for sodium-ion batteries: the impact of chemical and morphological structures | | rowspan="4" |Lignin-based hard carbon as anode for sodium-ion batteries: the impact of chemical and morphological structures | ||
Hao Zhang | Hao Zhang - ''Åbo Akademi University'' | ||
''Åbo Akademi University'' | |||
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| rowspan="4" |16:30 | | rowspan="4" |16:30 | ||
| rowspan="4" |Towards sustainable redox flow battery (RFB) with lignin-based electrolyte | | rowspan="4" |Towards sustainable redox flow battery (RFB) with lignin-based electrolyte | ||
Monalisa Chakraborty | Monalisa Chakraborty - ''Division of Applied Electrochemistry, Department of Chemical Engineering, KTH Royal Institute of Technology'' | ||
''Division of Applied Electrochemistry, Department of Chemical Engineering, KTH Royal Institute of Technology'' | |||
| rowspan="4" |16:30 | | rowspan="4" |16:30 | ||
| rowspan="4" |A Scalable Furnace Technique to Grow Silicon Nanoparticles for High-Performance Li-Ion Battery Anodes | | rowspan="4" |A Scalable Furnace Technique to Grow Silicon Nanoparticles for High-Performance Li-Ion Battery Anodes | ||
Jonas Örtegren | Jonas Örtegren - ''Mid Sweden University'' | ||
''Mid Sweden University'' | |||
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| rowspan="2" |16:50 | | rowspan="2" |16:50 | ||
| rowspan="2" |Methods for post-mortem analysis of large-format cells | | rowspan="2" |Methods for post-mortem analysis of large-format cells | ||
Andrew Lodge | Andrew Lodge - ''Scania CV AB'' | ||
''Scania CV AB'' | |||
| rowspan="2" |16:50 | | rowspan="2" |16:50 | ||
| rowspan="2" |Cenate SiCx product development | | rowspan="2" |Cenate SiCx product development | ||
Martin Kirkengen | Martin Kirkengen - ''Cenate'' | ||
''Cenate'' | |||
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|- | |- |