Nanoramic® Laboratories is the exclusive designer, manufacturer, and licenser of Neocarbonix™ electrodes for rechargeable Li-ion batteries, Li-ion capacitors, and supercapacitors. We use our proprietary material and low-cost process to create Neocarbonix™ electrodes with an advanced 3-D nanoscopic carbon binding structure. The resulting product provides greater power, energy density, and performance in extreme environments compared to traditional battery designs. Battery and supercapacitor manufacturers utilize Neocarbonix™ to optimize their production process, to support product growth, to reduce cost, and to increase compatibility with almost any active material, including the latest anode and cathode materials such as Ni-rich NMC, silicon-based anodes and solid-state electrolytes.

Benefits
Nanoramic Neocarbonix™ electrode technology dramatically improves the performance of batteries and ultracapacitors.

Lower Cost To Manufacture

Increased Energy Density in Batteries

Compatible with Existing Manufacturing Equipment

High and Low Temperature Operation

Significantly Lower Internal Impedance

Higher Charge and Discharge Power

Longer
Cycle Life
Applications
Electric Vehicles
Use Nanoramic's Neocarbonix™ in EVs to improve energy recovery, charge time, acceleration, and breaking; increase longevity and temperature range of operation; improve low temperature performance; and reduce both thermal management costs and overall costs of ownership.
gRID STORAGE
Neocarbonix™ technology dramatically decreases $/kWh by lowering cost of production and increasing energy density.
CONSUMER ELECTRONICS
Achieve higher energy density with LCO cathodes. Greater electrode thickness and mass loading result in high volumetric and gravimetric energy density in consumer electronics like cell phones, cameras, computers, and watches.
Medical devices
Reliability, lifetime, and cyclability are all improved, making Neocarbonix™ technology a perfect solution for medical device applications.
Work With Us

Direct Sale
Nanoramic® produces electrode in small to medium quantities. Nanoramic® offers an off-the-shelf Neocarbonix™ electrode product for ultracapacitors: Neocarbonix™ EDLC-SP.

Licensing
For customers who require large quantities, Nanoramic® licenses Neocarbonix™ technology directly to battery manufacturers and end users. The Neocarbonix™ process is highly scalable and is compatible with industry standard roll-to-roll electrode processes for easy implementation in most manufacturing environments.

Custom NRE
Nanoramic's® R&D team can work with the active material of your choice to produce a custom electrode solution for your application.
Neocarbonix for Ultracapacitors

The Neocarbonix™ EDLC is an electrode for ultracapacitors.
The Neocarbonix™ electrode contains no polymer binders and is composed of 100% high purity carbon.
FEATURES AND BENEFITS








Upcoming webinars

How to Increase Energy Density & Reduce Cost in Li-ion Batteries for EVs
Wednesday, February 26, 2020
learn more and register
8 Factors to Consider
When Choosing
Thermal Interface Materials
Wednesday, March 11, 2020
learn more and registerHow to Achieve the Highest Performance from your Ultracapacitor or Battery?
Tuesday May 08, 2018
2:00pm EDT
Are ultracapacitors right for my application?
LEARN MORE AND REGISTERUpcoming Webinars:
How to Achieve the Highest Performance from your Ultracapacitor or Battery?
Tuesday May 08, 2018
2:00pm EDT
Are ultracapacitors right for my application?
LEARN MORE AND REGISTER
New Applications for Ultracapacitors in Extreme Environments
Tuesday, April 24, 2019
2:00pm-2:30pm EST
How to Achieve the Highest Performance from your Ultracapacitor or Battery?
Tuesday May 08, 2018
2:00pm EDT
Are ultracapacitors right for my application?
LEARN MORE AND REGISTER
How to Maximize Energy Storage in Low Temperature Electronics
Wednesday, June 27, 2019
2:00pm-2:30pm EST
How to Achieve the Highest Performance from your Ultracapacitor or Battery?
Tuesday May 08, 2018
2:00pm EDT
Are ultracapacitors right for my application?
LEARN MORE AND REGISTER
Latest Advances in Thermal Interface Materials for Consumer Electronics
Wednesday, July 17, 2019
2:00pm-2:30pm EST