Name: BATT NMP
Brand: TUBALL
Rating: 5 (4 reviews)

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<p><strong>The OCSiAl team&nbsp;</strong></p>

<p>Por favor, escriba abajo su pedido y le mandaremos una solución a base de nanotubos de grafeno ideal para sus objetivos y materiales.</p>

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NANOTUBES

MATRIX

PRODUCTOS

MATERIALES

APLICACIONES

CONTACTOS

Energy

Almacenamiento energético

<p>Gracias a una carga 10–60 veces menor de aditivo conductor, es posible alcanzar un contenido de material activo de hasta el 98,8% en el electrodo seco</p>

Intensidad energética aumentada

<p>Mayor seguridad gracias a la reducción a la mitad del aumento de la resistencia de la batería (DCR)</p>

Mayor seguridad

<p>&gt;50% mayor a altas tasas de descarga</p>

Mayor potencia de descarga

<p>Duplicada gracias a la fuerza de adhesión entre las partículas del cátodo</p>

Mayor adherencia

<p></p>
<p>TUBALL™ BATT NMP es una dispersión ultrafina de nanotubos TUBALL™ en NMP (n-metilpirrolidona) para cátodos de alta energía. La inigualable conductividad de TUBALL™ permite mejorar la seguridad y la intensidad energética de las baterías. TUBALL™ BATT está ahora disponible en una forma de dispersión optimizada y más rentable.</p>
<p></p>

TDS TUBALL BATT NMP 1% 02NM29 ENG V03.PDF

TDS  TUBALL BATT NMP 1% 02NM29 ZHO V05.PDF

TDS  TUBALL BATT NMP 1% 02NM29 ZHO V04.PDF

TDS TUBALL BATT NMP 1% 02NM29 ENG V04.PDF

TDS TUBALL BATT NMP 0.4% 02NM23 ENG V06.PDF

Bidón

Dispersión liquida de nanotubos de carbono de pared única en NMP con adición el agente dispersivo. Se utiliza como  aditivo conductivo en baterías de ion-litio

BATT NMP

Gracias a una carga 10–60 veces menor de aditivo conductor, es posible alcanzar un contenido de material activo de hasta el 98,8% en el electrodo seco

Mayor seguridad gracias a la reducción a la mitad del aumento de la resistencia de la batería (DCR)

Duplicada gracias a la fuerza de adhesión entre las partículas del cátodo

Battery

Cathode

Cell

Energy Storage

Hybrid Capacitor

Lead-acid

Lithium Ion Battery

Supercapacitor

Suspension

EnergyStorage

Batteries

Energy Density

Cathodes

EnergyDensity

EVBattery

NanotubeCathode

NextGenBattery

BatteryCathode

LMFP

1 µm

2 µm

Nanotubos de grafeno en cátodos: +50% a la potencia de la descarga, doble ciclo de la vida útil, mayor seguridad. Mayor densidad energética gracias a 10–60 veces menor concentración.

Cátodo a base de nanotubos: mayor densidad energética, seguridad y ciclo de vida útil

TUBALL™ en los cátodos mejora los parámetros clave de las baterías

Cátodos

Aditivo conductor para el cátodo – dispersión de los nanotubos de grafeno/ SWCNT en NMP, +50% de la potencia de la descarga, mayor densidad energética y seguridad, ciclo de vida útil 2 veces más largo.

Agente conductor para cátodos en baterías de ion-litio

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

Graphene nanotubes—the solution to main battery problems

[#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

[#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

Electrochemical performance, flexibility, and durability in DBE—graphene nanotubes ensure long-distance connections between active material particles enabling uniform conductivity and better cohesion. Together with our partners, OCSiAl has already obtained proof-of-concept results for PTFE and TUBALL™ nanotube concentrate samples in the laboratory.

Learn more and get a quote here: https://tuball.com/nanotubes-in/li-ion-batteries?utm_source=Facebook&utm_medium=Batteries+post&utm_campaign=June+03%272024 

#DryElectrode #Batteries #DBE

Electrochemical performance, flexibility, and durability in DBE—graphene nanotubes ensure long-distance connections between active material particles enabling uniform conductivity and better cohesion

At the 8th International Forum on Cathode & Anode Materials for Advanced Batteries (ABCA-8), Sun Chao, OCSiAl’s sales manager explained the pivotal role of single wall carbon nanotubes in high-performance batteries. TUBALL™ nanotubes in thick LFP electrodes not only enhance conductivity but also improve the mechanical properties of the electrode, preventing cracking.

Read the full news on our Weixin page: https://mp.weixin.qq.com/s/SPGboug2xhqbKbVJmiDDBg?poc_token=HKAK9GWjAXOBTtDDEPZPzixT8TbEdxvaaaRdtHvo

Learn more on TUBALL™: https://tuball.com/?utm_source=Facebook&utm_medium=ABCA-8+onsite+photo&utm_campaign=March+20%272024 

#batteries #LFP #electrode #conference

At the 8th International Forum on Cathode & Anode Materials for Advanced Batteries (ABCA-8), Sun Chao, OCSiAl’s sales manager explained the pivotal role of single wall carbon nanotubes in high-performance batteries

Join our webinar on December 5 and gain the latest technical insights on SWCNTs in today’s trending battery technologies. Nanotubes pave the way to long-lasting, silicon-rich (SiOx and SiC) anodes, enable record-thick LFP cathodes for energy storage systems (ESS) and EVs, make it possible to improve the tensile strength and reduce the amount of PTFE in this emerging tech, improve battery cycle life, and lower internal resistance, enabling high-performing electrodes, fast-charging graphite, and single-crystal NCM materials.

Register via the link:
https://events.zoom.us/ev/AsJM4aDgmkugi1bR5OFlW9jPyR92HdeOIMqzi5262YDKXEdDd-yY~ArXTE2RAoIF4YVW0EQis7V2Izp2uj8cK477DYBQAk7rDpL_OOCdeJ4LyYowcwinmRAfWiW8WJdtGvSSxUMkQACiPvQ 

Learn more about nanotubes in batteries: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=facebook&utm_medium=Battery+announcement+%232&utm_campaign=Nov+14%272023 

#freewebinar #batteries #EV

Join our webinar on December 5 and gain the latest technical insights on SWCNTs in today’s trending battery technologies

Graphene nanotubes in tire treads can reduce emissions from EV usage by 2–4%. How? Nanotubes add conductivity and make it possible to alter formulations to retain high elasticity in tire treads. This decreases tan delta at 60°C by 15–25%, consequently reducing the rolling resistance coefficient by about 7–12%. Ultimately, this results in 2–4% less emissions during EV usage.

Learn more on graphene nanotubes for elastomers: https://tuball.com/nanotubes-in/elastomers?utm_source=Facebook&utm_medium=GNT+emission+banner&utm_campaign=post+campaign_Oct+19

#EV #tires #emissions #sustainability

Graphene nanotubes in tire treads can reduce emissions from EV usage by 2–4%

The performance improvements in Li-ion battery cathodes with graphene nanotubes are unmatchable with traditional conductive materials. 🔋 With less than 0.1% TUBALL graphene nanotubes(a concentration 10–60 times lower than is needed with multi wall carbon nanotubes or carbon black), higher energy density is achieved. Intrigued? 

Discover more here: https://tuball.com/nanotubes-in/cathodes?utm_source=Facebook&utm_campaign=Post+campaign&utm_term=Oct+11

#Liion #batteries #cathodes #EV

The performance improvements in Li-ion battery cathodes with graphene nanotubes are unmatchable with traditional conductive materials

#ZeroEmissions Day reminds us of the effect of our daily emissions, which should be gradually reduced. Graphene nanotubes in #batteries can lower EV driving emissions by up to 3%. How is this calculated? Nanotubes increase battery energy density by 40%, thus making it possible to decrease battery weight by 30% and the total EV weight by 6–9%. The lighter vehicle consumes less energy and emits 2–3% less #CO2 during driving. We know how to contribute to reducing CO2 emissions by incorporating graphene nanotubes into your car.

Learn more on graphene nanotube applications: https://tuball.com/nanotubes-for?utm_source=Facebook&utm_medium=Post+campaign+&utm_campaign=Zero+emission+Sepr+21

#EV

#ZeroEmissions Day reminds us of the effect of our daily emissions, which should be gradually reduced

[Breaking news💡] OCSiAl is constructing a graphene nanotube facility in Europe. The plant is set to reach full operational capacity in 2024–2025. The facility will strengthen the resilience of the nanotube supply chain and contribute to cost-efficiency of nanotube technologies for customers.

Read the news in full: https://ocsial.com/news/ocsial-is-constructing-a-graphene-nanotube-facility-in-europe-to-enhance-1-mln-electric-cars-per-year/ 

Learn more about graphene nanotubes: https://tuball.com/?utm_source=Facebook&utm_medium=Post+campaign&utm_campaign=Serbian+plant+Sept+13

#breakingnews #EV #Europe

[Breaking news💡] OCSiAl is constructing a graphene nanotube facility in Europe

Curious about enhancing battery performance? Join us at The Battery Show where we present nature’s longest and most flexible material for conductivity and reinforcement of electrodes. Graphene nanotubes’ robust long-distance electrical networks connect particles of active material. Come to our booth 2047 and learn more!

Check the exhibition floorplan: https://tbsm23.mapyourshow.com/8_0/floorplan/index.cfm?hallID=A&selectedBooth=2047 

Learn more about high-performance graphene nanotube batteries for EVs: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_medium=BatteryShow+announcemenet&utm_campaign=Sept+2023 

#thebatteryshow #EV #battery

Curious about enhancing battery performance? Join us at The Battery Show where we present nature’s longest and most flexible material for conductivity and reinforcement of electrodes

Graphene nanotubes with their unique length and flexibility create well-developed conductive reinforcing networks in #cathode material. A mere 0.08% dosage of graphene nanotubes effectively covers the surface and connects the particles together. The result: increased safety and energy density, improved discharge power and cathode adhesion. Graphene nanotubes in cathodes outperform traditional conductive materials, including carbon black and multi-wall carbon nanotubes.

Learn more on how nanotubes in cathodes improve key battery parameters: https://tuball.com/nanotubes-in/cathodes?utm_source=Facebook&utm_medium=post+campaign&utm_campaign=Cathode+adhesion_August+01 

#EV #batteries

Graphene nanotubes with their unique length and flexibility create well-developed conductive reinforcing networks in #cathode material

What's the advantage of TUBALL nanotubes in cathodes? The highly conductive, long-distance electrical connections created by graphene nanotubes allow for exceptional improvements in energy density and other properties—at concentrations of just 2–10% that of other conductive agents. Request a sample: https://tuball.com/additives/batt-nmp?utm_source=Facebook&utm_medium=Post&utm_campaign=Cathode+July+2023

#Cathode #GrapheneNanotubes #LiionBatteries

What's the advantage of TUBALL nanotubes in cathodes? The highly conductive, long-distance electrical connections created by graphene nanotubes allow for exceptional improvements in energy density and other properties—at concentrations of just 2–10% that of other conductive agents

Are you also at the biggest Chinese event in the battery industry? Visit our booth 4T053 at #CIBF, where we present brand-new dispersion for batteries with the highest content of graphene nanotubes on the market. Find out how you can boost cycle life, DCR, c-rate performance, cohesion, and more! Request a sample: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_medium=Post&utm_campaign=CIBF23+video

#BatteryTechnology #GrapheneNanotubes #NextGenBattery

Are you also at the biggest Chinese event in the battery industry? Visit our booth 4T053 at #CIBF, where we present brand-new dispersion for batteries with the highest content of graphene nanotubes on the market

OCSiAl is among Luxembourgian companies contributing to space technologies! Read the Silicon Luxembourg review of innovations vastly impacting aeronautics and discover the role of graphene nanotubes for batteries, lightning protection, and heating technologies: https://www.siliconluxembourg.lu/space-as-catalyst-for-earth-innovation/

#Aerospace #GrapheneNanotubes #LightingProtection #Batteries

OCSiAl is among Luxembourgian companies contributing to space technologies! Read the Silicon Luxembourg review of innovations vastly impacting aeronautics and discover the role of graphene nanotubes for batteries, lightning protection, and heating technologies: https://www

[💡R&D] What is the optimal tool for fast, easy, reliable identification of electronic resistance contributions in the electrodes used in automotive battery cells? Mercedes-Benz, Fraunhofer IKTS, and TU Dresden research team investigated TUBALL-modified cathodes with different measurement methods and chose the 46-probe method as the most useful one, as detailed in an article published in SSRN.
Read the article here:
https://papers.ssrn.com/sol3/papers.cfm?abstract_id=4373075

#LMFP #NMC #BatteryCathode #GrapheneNanotubes #Research

[💡R&D] What is the optimal tool for fast, easy, reliable identification of electronic resistance contributions in the electrodes used in automotive battery cells? Mercedes-Benz, Fraunhofer IKTS, and TU Dresden research team investigated TUBALL-modified cathodes with different measurement methods and chose the 46-probe method as the most useful one, as detailed in an article published in SSRN

Our team is thrilled to be meeting existing and future partners at #InterBattery2023 in Seoul, Korea! If you’re there, stop by booth #Q507 in Hall B to discover the unique ability of graphene nanotubes to reinforce and boost the electrical conductivity of any anode or cathode active material. Request a sample at https://tuball.com/additives/batt-h2o?utm_source=Facebook&utm_campaign=InterBattery+On-site+Video

#GrapheneNanotubes #NextGenBattery

Our team is thrilled to be meeting existing and future partners at #InterBattery2023 in Seoul, Korea! If you’re there, stop by booth #Q507 in Hall B to discover the unique ability of graphene nanotubes to reinforce and boost the electrical conductivity of any anode or cathode active material

Add up to 100% silicon to anodes while retaining cycle life, or lower the internal resistance of cathodes thus hugely improving safety—graphene nanotubes boost your active material. To learn more, visit OCSiAl booth #Q607 (Hall B) at InterBattery 2023 or check out our site https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_campaign=InterBattery+announcement 
#InterBattery #GrapheneNanotubes #NextGenBattery

Add up to 100% silicon to anodes while retaining cycle life, or lower the internal resistance of cathodes thus hugely improving safety—graphene nanotubes boost your active material

Long, flexible, electrically conductive and strong, graphene nanotubes create a robust network in the active materials of anodes and cathodes. This unique ability is the reason why graphene nanotubes outperform other conductive materials for Li-ion batteries. Read the details and request a sample: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_campaign=TUBALL+link

#NextGenBattery #GrapheneNanotubes #Liion

Long, flexible, electrically conductive and strong, graphene nanotubes create a robust network in the active materials of anodes and cathodes

The unmatched conductivity of graphene nanotubes enables improved energy density, safety, discharge power, and other key parameters in Li-ion battery cathodes. Watch how it works and request a sample here: https://tuball.com/additives/batt-nmp?utm_source=Facebook&utm_medium=Post&utm_campaign=CathodeVideo  
#Battery #Cathode #GrapeneNanotubes

The unmatched conductivity of graphene nanotubes enables improved energy density, safety, discharge power, and other key parameters in Li-ion battery cathodes

Nature magazine: cathodes with TUBALL facilitate the practical implementation of Li metal batteries in forthcoming smart portable electronic devices, electric vehicles, drones, and the Internet of things. Learn more: https://www.nature.com/articles/s41467-022-30112-1
#EV #Batteries #TUBALL

Nature magazine: cathodes with TUBALL facilitate the practical implementation of Li metal batteries in forthcoming smart portable electronic devices, electric vehicles, drones, and the Internet of things

Which batteries are better? Let’s investigate lithium–oxygen batteries. Modified with TUBALL, they offer high energy density and a long cycle life. Learn more here: https://pubs.rsc.org/en/content/articlehtml/2022/ma/d1ma01001h
#Batteries #TUBALL #OCSiAl

Which batteries are better? Let’s investigate lithium–oxygen batteries

A smart skin instead of paint, a lighter car body, safer tires, and longer-lasting batteries. Can you improve your car? You can with graphene nanotubes. Learn more about nanotubes for batteries: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_campaign=LonngLastingBatteries

#FutureofMobility #Nanotubes #EVBattery

A smart skin instead of paint, a lighter car body, safer tires, and longer-lasting batteries

Why do EV battery manufacturers pursue silicon anode technology? What is so groundbreaking in graphene nanotubes’ ability to increase energy density? Read the interview with Andrey Senyut to discover next-gen battery insights: https://batteriesnews.com/ocsial-interview-andrey-senyut-graphene-nanotubes-dispersion-silicon-anodes-ev-batteries/

#NextGenBatteries #GrapheneNanotubes #SiliconeAnode  #EVBattery #EVAdoption

Why do EV battery manufacturers pursue silicon anode technology? What is so groundbreaking in graphene nanotubes’ ability to increase energy density? Read the interview with Andrey Senyut to discover next-gen battery insights: https://batteriesnews

What is a progress in graphene nanotubes driving EV batteries forward? What technology will be powering transport in the future? Listen to Andrey Senyut's speech to find out the answers. Thank you for the video, Future Battery Forum Berlin! https://vimeo.com/646303069#t=1210s
#FastCharging #EVBattery #Nanotubes #SiliconAnode

What is a progress in graphene nanotubes driving EV batteries forward? What technology will be powering transport in the future? Listen to Andrey Senyut's speech to find out the answers

Silicon anode – the battery technology meeting the challenge of higher range and faster charging for electric vehicles. But silicon expands 4 times during charge/discharge cycles, leading to battery degradation. What's the solution? Just 0.05% graphene nanotubes. Now the real EV revolution begins. Watch the video to explore how it works.
#EVAdoption #Nanotubes #SiliconAnode #Nanotechnology #EVBattery #ElectricCarsAreTheFuture #BatteryTechnology

Silicon anode – the battery technology meeting the challenge of higher range and faster charging for electric vehicles

Join us at The Battery Show in Stuttgart to find out how graphene nanotubes unlock the mass use of silicon anodes, the transition to which is the goal of global car manufacturers! Use promo code FTR20 and receive 20% off a conference pass. Learn more on TUBALL nanotubes for batteries: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=Facebook&utm_campaign=TBS_Europe

#TheBatteryShowEurope #EVBattery #Nanotubes #SiliconAnode #EVAdoption

Join us at The Battery Show in Stuttgart to find out how graphene nanotubes unlock the mass use of silicon anodes, the transition to which is the goal of global car manufacturers! Use promo code FTR20 and receive 20% off a conference pass

TUBALL in battery applications remains a hot topic in the scientific literature. Researchers from China used TUBALL nanotubes with CMC as a high-capacity cathode for a water-in-salt, electrolyte-based aqueous Al-ion battery, which provides an ultra-high specific capacity of 790 mAhg–1 (based on the mass of SWCNT) at a high current density of 5 Ag–1 even after 1,000 cycles. https://onlinelibrary.wiley.com/doi/full/10.1002/aenm.202101514

#Nanotubes #Battery #BatteryResearch #HighEnergy

TUBALL in battery applications remains a hot topic in the scientific literature

A robust conductive network built from TUBALL graphene nanotubes addressed SiOx's poor conductivity and huge volume change, according to a recent paper in the Journal of Power Sources. The results achieved could help to create flow batteries with high energy density! https://www.sciencedirect.com/science/article/abs/pii/S0378775321008533

#SWCNT #Liion #Batteries #HighEnergy #Nanotubes

A robust conductive network built from TUBALL graphene nanotubes addressed SiOx's poor conductivity and huge volume change, according to a recent paper in the Journal of Power Sources

This September, we present graphene nanotubes – a game-changing material in silicon anodes that will be critical in the upcoming EV revolution. Welcome to OCSiAl booth #1617 at The Battery Show and Electric & Hybrid Vehicle Technology Expo! Feel free to use the promocode to receive a free expo pass and 20% off a conference pass: SPECIAL
Learn more about batteries with TUBALL: https://tuball.com/nanotubes-for/high-performance-ev-batteries

#Nanotubes #Batteries #SiliconAnode #FastCharging #EnergyDensity #BatteryShowNA2021

This September, we present graphene nanotubes – a game-changing material in silicon anodes that will be critical in the upcoming EV revolution

A milestone on the way to mass-market EVs! Two leading Chinese manufacturers, Haiyi and East Chem, have launched the production of TUBALL™ BATT. With a combined annual capacity of 7,000 tonnes, they are paving the way for next-generation batteries. Congratulations! 🥳
Read more at https://ocsial.com/en/news/349/
#Battery #LIB #EV #Graphene #Nanotubes #China

Reshaping the Chinese EV battery market: highly conductive nanotube additive now being made in China

Nanoaugmented tires: better grip with extra durability thanks to graphene nanotubes
#Autofact #Innovation #Mobility #TUBALL #Graphene #Nanotubes #Tires

Tiny nanotubes can solve the main problem in the electric vehicles industry. Want to know how? Visit Kusumoto’s booth #W2-27 at the #BatteryJapan Expo in Tokyo from 27 February to 1 March. And don’t miss the presentation by Andrey Senyut on 28 February at 11:00.
#Graphene #Nanotubes #Batteries #EV

OCSiAl

Scott Donne, Professor of Chemistry at The University of Newcastle, Australia, at #naum2018: 
Can graphene nanotubes meet the challenge of manganese dioxide batteries – low conductivity in the cathode? 

#Nanotubes #NanoaugmentedMaterials #Nanotechnology #Nanomaterials #EnergyStorage #Electrochemistry #Cathode #Battery

Scott Donne from University of Newcastle at NAUM 2018

Nobuhiro Shinka, Department Manager of DAIKIN Industries at #naum2018:
One of the key players on the fluorochemical market introduces new solutions – TUBALL and PVdf modifier VT-475. Together, they will increase energy density in the cathode for Li-ion batteries.

#GrapheneNanotubes #Nanotubes #TUBALL #DAIKIN #NanoaugmentedMaterials #Nanotechnology #Nanomaterials #Batteries #Cathode #Anode #LiIonBatteries

Nobuhiro Shinka from DAIKIN Industries at NAUM 2018

Dr Jian Lin, Vice President of R&D in Shenzhen BAK Power Battery at #naum2018:
The Li-ion batteries industry faces a lot of challenges in the development of electric transportation. Will graphene nanotubes help boost conductivity in cathodes, enable cycle life in silicon anodes, and finally meet the challenge of 300 Wh/kg energy density? 

#Nanotubes #Batteries #EnergyStorage #Additives #Nanotechnology #Nanomaterials #NanoaugmentedMaterials #Cathode #Anode #LiIonBatteries #GrapheneNanotubes

TUBALLBATT NMP

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