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HYBRID3D printing integrates multiple additive manufacturing technologies, enabling the creation of energy storage devices with complexities and superior material properties. It does not only leverage conventional battery formulations but includes the ability to adapt new battery chemistries. This versatility in approach allows for the production of highly detailed and functionally superior components.
MATERIAL leverages cutting-edge 3D design and optimization, alongside adaptive printing technologies, to engineer products that precisely conform to specific contours and surfaces of surrounding subcomponents in devices. This method ensures a perfect fit and optimal performance for customized applications.
MATERIAL is capitalizing on the demand for compact, powerful, and portable solutions by focusing on manufacturing products that are not only space-saving but also cater to increasingly complex and conformal device designs. This strategic choice by our clients differentiates their offerings and addresses a significant market need, increased runtime.
Conformal batteries are required to adhere to critical safety and performance standards, such as UL 62133, to ensure the modules produced are safe, reliable, and perform effectively in various applications.
The main challenges in developing conformal batteries include managing capacity and energy density, optimizing thermal performance, and navigating the complexities of manufacturing batteries that fit custom shapes. These limitations require innovative solutions like HYBRID3D to balance design flexibility with performance and safety.
Renowned engineer in the automotive design world, celebrated for being the most successful American in Formula One with 7 World Championships to his name. He made significant contributions at Mercedes-AMG Petronas, designing key components for championship-winning cars. Elias also played a pivotal role at Rivian, leading design efforts in mechanical design of low-voltage electronics, and early in his career with Honda in engine design. His education includes a Mechanical Engineering degree from the University of Miami, and a Master's from Oxford Brookes University (UK).
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Celebrated for his groundbreaking work in 3D printing a lithium cell, is a leading figure in battery technology, with his research widely acknowledged across the sector. Specializing in advanced manufacturing process development and nanomaterial science, Dr. Reyes career experience includes additive manufacturing and semiconductors. He holds a Ph.D. from Duke University and also completed his postdoctoral work at Rice University, deeply committed to material science and democratizing technology, driving innovation with his significant contributions.
A three-time venture-backed founder and technical product leader, seamlessly integrating electrical design engineering rigor with keen business insights. Proficient in early customer development and enterprise market entry strategy, this individual serves as a pivotal force in steering technological innovations towards impactful market presence and adoption. Significant contributions as Senior Product Manager at Verizon Media and Partner at Devland, a recognized Deep Tech Studio and Fund, demonstrate a dynamic blend of engineering expertise and visionary leadership.
