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Metal Matrix Composites Reinforced by High Entropy Alloys
TS-063364 — Experience the future of advanced materials—our metal matrix composites offer a revolutionary approach to meeting the demands of modern industries. Elevate your products, enhance performance, and reduce costs with our groundbreaking technology.
For a closely related technology, please visit https://oied.osu.edu/find-technologies and type "T2017-051" in the search field.
In the aerospace, defense, and automotive industries, there is a pressing demand for advanced materials that combine low weight, high strength, exceptional wear resistance, and superior high-temperature performance. Traditional methods using ceramic particles as reinforcements in aluminum matrix c…
- College: College of Engineering (COE)
- Inventors: Luo, Alan; Huang, Xuejun; Zhang, Jianyue
- Licensing Officer: Zinn, Ryan
Fast-charging anodes for lithium-ion batteries
TS-063224 — The Need
In the rapidly evolving landscape of electric vehicle (EV) technology, there exists a pressing commercial need for rechargeable lithium-ion batteries (LiBs) that can not only deliver high charge capacities and power densities but also address the critical issues of capacity fading and safe…
- College: College of Engineering (COE)
- Inventors: Kim, Jung Hyun; Jiao, Xinwei "Jocelyn"; Yap, Jun Wei; Yu, Chanyeop
- Licensing Officer: Randhawa, Davinder
TS-061848 — The current manufacturing methods for Lithium-Ion Batteries are limited to around 200 Wh/kg. Power density is a factor of the battery construction and is highly dependent on the electrodes.
The Need
Conventional Li-ion batteries consist of electrodes constructed of stacks of 70 µm films. The thin electrodes then require current collectors and separators for assembly, which increase mass without adding charge capacity. The need for these inactive components limits the power densi…
- College: College of Engineering (COE)
- Inventors: Kim, Jung Hyun; Rao, Lalith; Sayre, Jay
- Licensing Officer: Randhawa, Davinder
