Ultra Fast Carbon Electrode from NAWA Technolgies

Elettrodo al carbonio ultra veloce di NAWA Technolgies

A nano-based innovation Ultra Fast Carbon Electrode that unlocks next-level performance for all types of batteries has been unveiled by NAWA Technologies.

Technology is based on patented Vertically Aligned Carbon Nanotube (VACNT) design, that will bring revolutionary improvements in power, energy, lifecycle and charging time of batteries, particularly those used by electric vehicles.

Elettrodo al carbonio ultra veloce di NAWA TechnolgiesCurrently one of the major limitations of battery power, energy and lifecycle is the design and material used for the electrode. Based on inefficient powders, existing electrodes have low electrical, thermal and ionic conductivity, along with poor mechanical behaviour when discharged and recharged, and can also suffer from early delamination and degradation leading to safety and lifecycle issues.

But based on NAWA’s patented vertically-aligned carbon nanotube (VACNT) design, which is also the basis of its next-generation ultracapacitors, the revolutionary Ultra Fast Carbon Electrode combines the highest ionic conductivity – thanks to a 3D fully accessible nanostructure – with the highest electrical and thermal conductivity, provided by its arrangement of 100 billion nanotubes per sq cm, all vertically aligned.

Nano-design for quantum leap in performance

This new 3D electrode geometry can solve the vast majority of performance constraints faced by global battery makers, boosting battery power by a factor 10, energy storage by up to three, lifecycle by up to five and reduce charging time down to minutes instead of hours. What’s more, with the electrodes accounting for almost 25 per cent of the total battery cost and today’s global lithium-ion battery market worth in excess of $35 billion*, NAWA believes that its new design can offer significant cost savings.

Applicable to all chemistries

Elettrodo al carbonio ultra veloce di NAWA TechnolgiesNAWA’s Ultra Fast Carbon Electrode is a universal system, available as a prime for existing electrodes – where the VACNT increases electrical conduction – and ready for market in as little as 12 months. It is also available as a full 3D-electrode (anode or cathode) where the VACNT themselves serve as a framework on which lithium insertion material can be coated.

This is the most advanced and efficient use of the innovation. NAWA is developing different concepts of coatings with various chemistries and partners – it expects the technology to be introduced and in production as early as 2023.

Both electrode products benefit from the six years NAWA has spent developing its VACNT growth process for its next-generation ultracapacitors, having now reached the capacity to grow VACNT on both sides of a one metre width aluminium substrate in a roll-to-roll manner, with no solvents or binders, reducing the electrode cost on a $/Wh basis by 30 per cent.

Eco-friendly

NAWA’s dry electrode technology also brings significant environmental advantages, being easily recyclable and eco-disposable at the end of its long lifecycle. As a result, NAWA estimates that by using an Ultra Fast Carbon Electrode in lithium battery cell, the CO2 footprint could be reduced by as much as 60 per cent, simply because less active material is required.

Huge benefits for electric vehicles

Elettrodo al carbonio ultra veloce di NAWA TechnolgiesAll types of batteries can benefit from the Ultra Fast Carbon Electrode, but with the automotive industry now consuming 75 percent of lithium battery production and electric vehicles requiring ever-improved range, charging times and lifecycles, NAWA Technologies sees this sector as a major target.

Applied to an electric vehicle, an advanced lithium-ion battery with an Ultra Fast Carbon Electrode could double the kWh stored, meaning EVs could draw on more power to go further, or faster, making 1,000km ranges commonplace in a mass market EV. Charging time could be reduced to as little as five minutes for an 80 per cent charge, while battery lifecycle could be improved by a factor of up to five.

In addition, NAWA Technologies is also developing a concept called NAWAShell, an integrated structural hybrid battery that incorporates VACNT to give two complimentary characteristics: enhanced mechanical strength and electrical energy storage within the core of the composite structure.

Video

Source: NAWA Technologies

Be the first to comment

Leave a Reply

Your email address will not be published.


*


This site uses Akismet to reduce spam. Learn how your comment data is processed.