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Si-C Anoden

TUBALLBATT H2O


TUBALL ™ BATT H2O ist die erste gebrauchsfertige Lösung auf Basis von TUBALL™ Nanoröhren, die es emöglicht, das Hauptproblem der Si/C-Anoden effektiv anzugehen. TUBALL™ Graphen-Nanoröhren bieten eine unübertroffene Leitfähigkeit für Si/C-Anoden bereits bei einer Konzentration von 0,05%. Bei Zugabe zum Si/C-Anodenmaterial umhüllen die in TUBALL™ BATT H2O enthaltenen ultrafeinen und stabilen Graphen-Nanoröhren vollständig die Si/C-Partikel der Anode und verbinden diese elektrisch während des Lade- und Entladevorgangs der Batterie selbst unter den intensivsten Zyklusbedingungen, die für Elektrofahrzeuge typisch sind.

Werkstoffsystem
Anoden der Li-Ion-Batterien (Si/C, Si/O, Graphit)
Trägerkonzentrat
Wasser, CMC, sonstige

Benefits

Solves the Si-anode degradation problem

20% Si/C anodes with up to 600 mAh/g of capacity thanks to TUBALL™ BATT H2O result in a battery cycle life acceptable to the modern EV industry

Record high energy density achievable

Boosts energy density up to 300 Wh/kg and 800 Wh/l due to enabling Si anodes

Fast-charging ability unlocked

Up to 4C charge rate achievable due to high silicon content enabled by TUBALL™

Cycle life that meets the targets of the modern EV industry

Makes it possible to retain >80% capacity after 1,500 cycles



Unterlagen

Erhältlich in Sprachen:
English
TDS TUBALL BATT H2O 0.4% 02HO17 ENG V03.PDF
PDF102.4 kB
TDS TUBALL BATT H2O 0.8% 02HO19 ENG V09.PDF
PDF204.8 kB

Neuigkeiten

18. Juli
Graphene nanotubes—the solution to main battery problems. They significantly enhance key lithium-ion battery parameters: energy density, charge rate, service life, and cost. 🔋✨ Discover more here: https://shorturl.at/rn1wA #Batteries #Liion #Energy
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9. Juli
Silicon expands during battery charging and discharging. This leads to cracking and loss of contact between silicon particles. TUBALL™ graphene nanotubes are the only material that forms long, flexible, conductive, and strong bridges, keeping silicon anode particles well-connected even during severe volume expansion and cracking. 🔋✨ Learn more here: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_medium=Batteries+post&utm_campaign=July+9%2724 #batteries #SiliconAnode #energy
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13. Juni
[#BreakingNews] 🚀 OCSiAl has completed a 3,000 MT single wall carbon nanotube water-based dispersion production site in Serbia, Europe! 🌍 This new facility will support various EV and consumer electronics projects by boosting the performance of Li-ion battery cells with energy-dense, silicon-rich, or fast-charging graphite anodes. 🔋✨ Scheduled to commence commercial production in the third quarter of 2024, this facility serves as an industrially scalable unit for SWCNT dispersion production and will be replicated by OCSiAl elsewhere in Europe, Asia, and the US. Read the news in full: https://ocsial.com/news/ocsial-completes-single-wall-carbon-nanotube-dispersion-site-in-europe/ Learn more on graphene nanotube applications and uses: https://tuball.com/nanotubes-for?utm_source=facebook&utm_medium=Dispersion+site+in+Serbia+press-release&utm_campaign=June+13 #dispersions #ProductionSite #EV #batteries
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