This is some great info for everyone investing in this field where RMO is. This companies technology is on the Rover that landed on mars. They are now ready to go to commercialization in many areas. Also slated to up list to the NYSE
KULR Technology Group, Inc., through our wholly-owned subsidiary KULR Technology Corporation, develops and commercializes high-performance thermal management technologies for batteries, electronics, and other components across an array of battery-powered applications. For aerospace and DOD applications, our solutions target high performance applications in direct energy, hypersonic vehicles and satellite communications. For commercial applications, our main focus is a total solution to battery safety by which we aim to mitigate the effects of thermal runaway propagation. This total battery safety solution can be used for electric vehicles, energy storage, battery recycling transportation, cloud computing and 5G communication devices. Our proprietary core technology is a carbon fiber material that provides what we believe to be superior thermal conductivity and heat dissipation for an ultra-lightweight and pliable material. By leveraging our proprietary cooling solutions that have been developed through longstanding partnerships with NASA, the Jet Propulsion Lab and others, our products and services make commercial battery powered products safer and electronics systems cooler and lighter.
KULR’s business model continues to evolve from being a component supply, to providing more design and testing services to our customers. The next step of evolution is to provide total system solution to address market needs. To scale up as a systems provider more quickly and efficiently in the directed energy, hypersonic vehicle thermal systems, energy storage and lithium-ion battery recycling markets, KULR will actively seek partners for joint venture, technology licensing and other strategic partnership models. The goal is to leverage the Company’s thermal design technology expertise to create market leading products, which KULR will take to market directly to capture more value for KULR shareholders.
Our management expects high priority and growth in the aerospace and defense sectors, specifically in regard to directed energy, hypersonic weapon programs, and space missions. Directed energy is currently in the spotlight as experts predict it will greatly impact the future of warfare. Our CRUX cathode generates powerful electron pulses by field emission from the tops of our carbon fiber coating which has the potential to further develop the current technology. Thermal management is another critical component of both hypersonic weapons programs and space missions and is another area in which our products excel. Our carbon fiber solutions are used for thermal management in missile defense programs and are particularly effective because of their survivability at very high temperatures. They are also very effective at transferring heat and mitigate the risk of overheating in such high-risk environments. Historically we have provided value to this sector and we expect to further develop our relationships with Airforce Research Lab, Naval Research Lab and prime contractors to market our solutions.
Hundreds of millions of Li-ion cells are produced and transported annually and even those packaged to prevent external short can still experience thermal runaway (“TR”) due to internal shorts, caused by latent defects, when fully charged. In these dangerous cases, a torch-like fire is released as energy escapes from the cell and sends nearby cells into TR resulting in a large fire. As part of our total battery safety solution, we have designed a bag out of our TRS material to suppress the flames and prevent the TR event. Suitably placed, the TRS provides a means of protection not only from adjacent batteries but also outside fires of arbitrary origin. Experts at NASA’s Propulsion & Power Division found our TRS successful at extinguishing the fire generated by cells when they intentionally triggered the batteries into dangerous failures. Our TRS bag is currently being used on the International Space Station (“ISS”) through a project with Leidos, for storing laptop batteries in order to reduce the risk of TR.
Another key element of our battery safety solution is KULR internal short circuit (“ISC”) device and trigger cells which are used for cell testing and screening. Our patented ISC device, licensed from NASA/NREL, can be inserted by OEMs or manufacturers into cells to mimic failure conditions in a cell. Once the trigger device is placed inside the cell, it can be intentionally triggered on demand causing the cell to short circuit. Currently, we provide ISC devices to OEMs and cell manufacturers, as well as ready-made ISC trigger cells to customers to identify failure modes and safety issues within their systems. Currently we are creating an ecosystem based on our technology which can be applied to different battery architectures and chemistries.
Our management believes that within commercial markets, aerospace and defense, and high-value applications, cell testing and screening has become a topic of focus. Therefore, we plan to expand our capabilities to include full battery analysis and testing as outlined by NASA Johnson Space Center. We plan to fully incorporate this into our holistic approach to battery safety along with our PPR battery pack design and testing services, ISC device and trigger cell products and TRS bags. With increasing regulations and pressure from government bodies to mitigate the dangers of battery fires and TR, we plan to further develop our capabilities in this arena.
In addition to evolving demands led by aerospace and defense, we have observed trending manufacturer-led opportunities in industries such as electric motor vehicles (“EV”) that have become increasingly more reliant on the Cloud, portability and high-demand processing power. KULR’s high performance thermal interface materials can be used to accelerate 5G communications development due to our material’s core properties: high thermal conductivity, light weight, and low contact pressure. 5G is one of the biggest opportunities going forward for transportation technology and we plan to take part in testing of digital and RF tests for 5G. Testing is still in early phases for both digital and RF communication chips, however, we are seeing a big growth opportunity for thermal management for 5G. Cloud computing is also an application of interest
Battery safety technology is becoming increasingly vital to our world in which battery-operated devices are everywhere. Lithium ion (“Li-ion”) batteries are widely used in consumer electronics, aerospace, marine and automotive applications. In recent months, KULR has developed a total battery safety solution for its customers that spans a wide array of industries and applications. KULR has seen great success in using our patented thermal runaway shield (“TRS”) technology to prevent cell to cell thermal runaway propagation as well as module to module propagation. We have designed a total solution for customers from the design stages incorporating our materials all the way to testing their passive propagation resistant (“PPR”) battery packs. We are flexible and can work with different battery pack configurations across various industries. We developed a PPR reference design for CubeSat battery in December 2019. Based on this reference design platform, we were awarded a dual-used technology development agreement from NASA’s Marshall Space Flight Center to build 3D printed battery systems for manned and robotic space applications in August 2020. Our research and testing, as well as working alongside battery experts at NASA Johnson Space Center, has positioned us for further advancements at the forefront of battery safety.
