Our Head of Innovation, Manveer Sidhu, introduces our brand new laboratory in Parsippany and discusses Nuvvon’s mission to revolutionize the field of energy storage.
“Nuvvon’s 100% solid-state batteries are safe, energy dense, highly scalable and operate under ambient environments,” states Manveer Sidhu.
Nuvvon’s team of scientists relay the key benefits of Nuvvon’s technology and what differentiates Nuvvon from other battery technology companies in the sector. “Technology is what sets us apart from other competitors, and material innovation is a core of our technology,” notes Dr. Wayne Xu, Principal Scientist at Nuvvon.
A core benefit of Nuvvon’s proprietary technology is that it does not exhibit any type of thermal runaway at higher temperatures, meaning that cells do not become unstable when the temperature increases. This makes it highly suited for high demanding applications, as well as adaptable to a wide range of industries, including EVs, portable electronics, aerospace, and microgrid energy storage.
Nuvvon prides itself on transparency and this core value is highlighted, “All the data that is published, or generated, or provided to potential parties, is third party independently verified,” affirms Manveer Sidhu.
Scalability is also a notable benefit. Nuvvon’s technology is highly scalable, as the polymer electrolyte technology can integrate seamlessly into existing lithium-ion battery production lines due to the ‘drop-in’ compatibility of its polymer electrolyte, avoiding the costs of factory retrofits or extensive new equipment.
Find out more about Nuvvon’s proprietary technology or get in touch for further information.
Next-Generation Battery Innovator Nuvvon announces new state-of-the-art laboratory in Parsippany, New Jersey.
Nuvvon is delighted to announce that Dr. Zhiyong Meng has joined Nuvvon as Lead Polymer Scientist.
Solid-state polymer electrolytes developed by Nuvvon as a safe alternative to liquid electrolytes in the manufacture of non-flammable batteries are UL certified to DOT standard SP20798.