HPQ Silicon Affiliate Patents Can Expand Performance Of Graphite Anodes In Lithium-Ion Batteries And Deliver Holy Grail Silicon Anodes With Up To 10X Energy
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In an electric vehicle battery, which is typically a lithium-ion battery, there are three main parts you need to know about: the anode, the cathode, and the electrolyte. The anode plays a crucial role in how the battery works. Specifically, it acts like a storage container for lithium ions. It holds onto them when the battery is charged and releases them when the battery is being used to power the car. This flow of lithium ions back is what makes the battery work and allows your EV to run on electric power. THE CHALLENGE - GRAPHITE ANODES HAVE HIT MAXIMUM PERFORMANCE Today, graphite anodes dominate the market of anode materials for lithium-ion batteries, with the graphite market estimated to be worth approximately US$25 billion in 2023. But that may be as far as it goes with graphite having essentially achieved its maximum performance in terms of energy density. THE SOLUTION - SILICON ANODES CAN INCREASE ENERGY BY 10X HPQ announced that affiliate Company Novacium SAS has acquired a family of patents related to the surface treatment of carbon-based materials. These innovations come from the world-renowned researcher Dr. Alexander Zaderko, with over two decades of experience. Silicon-based anodes have up to 10 times the energy density of a graphite-based anode, which is why Porsche, Mercedes and GM are betting on silicon-anode batteries. THE PROBLEM - CURRENT SILICON ANODES CAN DEGRADE While silicon-based anode materials hold great promise for batteries, they are known to suffer from significant degradation during charging and discharging cycles. ENTER HPQ SILICON AND NOVACIUM Initial tests have shown significant performance improvements in silicon-based Li-ion batteries. These results indicate that the new surface treatment has a dual effect on battery properties: Reduces degradation, enhancing cyclability (battery lifespan) Reduces charging time. BEYOND SILICON -ENHANCING THE PERFORMANCE OF EXISTING GRAPHITE ANODES & ENTIRE BATTERY MARKET Furthermore, initial test results with graphite anode materials alone (without silicon) suggest that the new surface treatment positively impacts the performance of graphite-based Li-ion batteries. “Our innovative approach aims to significantly improve the operation of lithium batteries. We believe the application of Novacium's patented surface treatments has the potential to transform and enhance the performance of Li-ion batteries, benefiting not only silicon-based anode materials but the entire battery market.” Oleksiy Nichiporuk, Novacium Chief Technical Officer HPQ SILICON ALREADY IN DISCUSSION WITH ENTITIES UNDER NDA “Novacium's new patented surface treatment, which also improves the performance of graphite-based Li-ion batteries commonly used in the industry, provides HPQ and Novacium with a unique opportunity to offer solutions tailored to both the short- and long-term needs of the battery industry. Promising preliminary discussions have already started to take place with entities already under non-disclosure agreements with HPQ on the potential of this technology.” Bernard Tourillon, CEO HPQ Silicon Inc. and NOVACIUM SAS HOW BIG IS THE MARKET POTENTIAL? In 2023, the market for these materials is estimated to be valued at anywhere between US$1.1 billion and US$2.7 billion. Projections for the future suggest that the demand for silicon anode materials could reach 300,000 tons by 2030, with an estimated value of around US$15 billion according to one source, and an astounding US$131.6 billion by 2033 according to another. It's worth noting that, currently, silicon-based materials for lithium-ion batteries represent a relatively small portion, making up less than 10%, of the overall global demand for graphite. Novacium's pioneering surface treatment techniques are on the cusp of reshaping the landscape of lithium-ion batteries, and HPQ Silicon Inc. stands at the vanguard, not merely to meet, but to surpass the energy needs of the future.