European Magnesium Interactive Battery Community | Disruptive micro-energy and storage technologies
European Magnesium Interactive Battery Community | Disruptive micro-energy and storage technologies by J. Alberto Blazquez, Luis C. Colmenares, CDETC Energy Storage Management Team,
E-Magic Battery Community
3rd International Symposium on Magnesium Batteries 8-9 Sep 2021
⚠️ Disclaimer: All The Information Provided On This Channel Are For Educational Purposes Only. This Channel Does Not Promote Or Encourage Any illegal. The Channel is No Way Responsible For Any Misuse Of The Information.
🚫 Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational, or personal use tips the balance in favor of fair use.
The presentation titled "Chemical Magnesiation of V6O13" by J. Alberto Blazquez, at the Mg Ion Battery Forum the CDETC will discuss the material in magnesium-ion batteries.
Magnesium-ion batteries are an emerging technology that has the potential to offer higher energy density and safety compared to traditional lithium-ion batteries. However, the development of magnesium-ion batteries has been hindered by the lack of suitable cathode materials.
V6O13 is a promising cathode material for magnesium-ion batteries due to its high theoretical capacity and structural stability. The chemical magnesiation of V6O13 involves the insertion of magnesium ions into the V6O13 lattice, which can enhance its electrochemical performance.
In the presentation, J. Alberto Blazquez, who is a renowned expert in materials chemistry and battery research, is likely to discuss the synthesis and characterization of functional nanomaterials as well as their electrochemical performance as a cathode material in magnesium-ion batteries.
Overall, the presentation will provide valuable insights into the development of high-performance cathode materials for magnesium-ion batteries, which could have significant implications for the future of energy storage technology.
Chemical magnesiation,
V6O13,
Cathode material,
Magnesium-ion batteries,
Energy density,
Safety,
Lithium-ion batteries,
Synthesis,
Characterization,
Electrochemical performance,
New materials,
Sustainable energy technology,
Energy storage,
EU Battery Forum,
University of Cambridge,
Sunita Dey,
Clare P. Grey,
Postdoctoral researcher,
Materials chemistry,
Battery research,
#chemicalmagnesiation #V6O13 #cathodematerial #magnesiumionbatteries #energydensity #safety #lithiumionbatteries #synthesis #characterization #electrochemicalperformance #newmaterials #sustainableenergytechnology #energystorage #EUBatteryForum #UniversityofCambridge #SunitaDey #ClarePGrey #postdoctoralresearcher #materialschemistry #batteryresearch
Видео European Magnesium Interactive Battery Community | Disruptive micro-energy and storage technologies канала Science Info Hub
E-Magic Battery Community
3rd International Symposium on Magnesium Batteries 8-9 Sep 2021
⚠️ Disclaimer: All The Information Provided On This Channel Are For Educational Purposes Only. This Channel Does Not Promote Or Encourage Any illegal. The Channel is No Way Responsible For Any Misuse Of The Information.
🚫 Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational, or personal use tips the balance in favor of fair use.
The presentation titled "Chemical Magnesiation of V6O13" by J. Alberto Blazquez, at the Mg Ion Battery Forum the CDETC will discuss the material in magnesium-ion batteries.
Magnesium-ion batteries are an emerging technology that has the potential to offer higher energy density and safety compared to traditional lithium-ion batteries. However, the development of magnesium-ion batteries has been hindered by the lack of suitable cathode materials.
V6O13 is a promising cathode material for magnesium-ion batteries due to its high theoretical capacity and structural stability. The chemical magnesiation of V6O13 involves the insertion of magnesium ions into the V6O13 lattice, which can enhance its electrochemical performance.
In the presentation, J. Alberto Blazquez, who is a renowned expert in materials chemistry and battery research, is likely to discuss the synthesis and characterization of functional nanomaterials as well as their electrochemical performance as a cathode material in magnesium-ion batteries.
Overall, the presentation will provide valuable insights into the development of high-performance cathode materials for magnesium-ion batteries, which could have significant implications for the future of energy storage technology.
Chemical magnesiation,
V6O13,
Cathode material,
Magnesium-ion batteries,
Energy density,
Safety,
Lithium-ion batteries,
Synthesis,
Characterization,
Electrochemical performance,
New materials,
Sustainable energy technology,
Energy storage,
EU Battery Forum,
University of Cambridge,
Sunita Dey,
Clare P. Grey,
Postdoctoral researcher,
Materials chemistry,
Battery research,
#chemicalmagnesiation #V6O13 #cathodematerial #magnesiumionbatteries #energydensity #safety #lithiumionbatteries #synthesis #characterization #electrochemicalperformance #newmaterials #sustainableenergytechnology #energystorage #EUBatteryForum #UniversityofCambridge #SunitaDey #ClarePGrey #postdoctoralresearcher #materialschemistry #batteryresearch
Видео European Magnesium Interactive Battery Community | Disruptive micro-energy and storage technologies канала Science Info Hub
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