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Method for Preparing High-Energy Electrodes with Controlled Microstructures for Energy-Storage Devices
TS-052586 — A novel method for producing thick electrodes with controlled cracks to facilitate fast ionic transport and improve battery performance.
The Need Conventional electrodes for Li-ion batteries are prepared as thin layers of 70 to 100 microns to meet the power requirements of automotive applications. However, using thin electrodes compromises the energy densities of battery cells due to increasing weight and volume of inactive componen…
  • College: College of Engineering (COE)
  • Inventors: Kim, Jung Hyun; Rao, Lalith; Sayre, Jay
  • Licensing Officer: Bartell, Cordellia

Ultra-Fast Charging Li-ion Battery Anodes
TS-040614 — A novel battery anode designed to overcome the limitations posed on fast charge batteries by graphite anodes. The new anode increases battery life, is more stable during manufacturing, and has improved heat dissipation qualities.
As technology continues to progress, embedding itself in our daily life from our cars to our wrists, an ever-present concern is the need for batteries with the ability to re-charge quickly. Most of these emerging technologies use Li-ion batteries with graphite anodes. Unfortunately, under fast cha…
  • College: College of Arts & Sciences
  • Inventors: Co, Anne; Bascaran, Julen
  • Licensing Officer: Bartell, Cordellia

Ultra-Fast Charging Li-ion Battery Anodes
TS-040614 — A novel battery anode designed to overcome the limitations posed on fast charge batteries by graphite anodes. The new anode increases battery life, is more stable during manufacturing, and has improved heat dissipation qualities.
As technology continues to progress, embedding itself in our daily life from our cars to our wrists, an ever-present concern is the need for batteries with the ability to re-charge quickly. Most of these emerging technologies use Li-ion batteries with graphite anodes. Unfortunately, under fast cha…
  • College: College of Arts & Sciences
  • Inventors: Co, Anne; Bascaran, Julen
  • Licensing Officer: Bartell, Cordellia

Electrolyte to Enable Reversible Dendrite-Free Potassium Plating and Stripping for Potassium Secondary Batteries
TS-037854 — A novel electrolyte to prevent dendrite growth in potassium air batteries.
The Need Potassium-air batteries have recently emerged as alternative energy storage devices beyond lithium-ion batteries. However, potassium metal anodes suffer from poor reversibility during plating and stripping processes due to their high reactivity and unstable solid electrolyte interphase (SE…
  • College: College of Arts & Sciences
  • Inventors: Wu, Yiying; McCulloch, William; Xiao, Neng
  • Licensing Officer: Bartell, Cordellia

Battery consumption minimization strategy for plug-in, pure, and hybrid EVs
TS-036908 — An energy management strategy for pure and hybrid electric vehicles that improves battery-life and optimizes fuel economy
Automotive powertrains are increasingly more electric, from mild and full hybrid, to plug-in hybrid and battery electric, automotive propulsion is increasingly relying on electricity as a source of power assist, or as the sole source of power, in automotive vehicles. This is true for passenger, co…
  • College: College of Engineering (COE)
  • Inventors: Rizzoni, Giorgio; Tang, Li
  • Licensing Officer: Zinn, Ryan

Crosslinked Hydrophilic Membranes for Gas Separation
TS-014997 — An energy efficient process for the separation of gases by selectively permeable membranes
To counteract economic and environmental problems due to the burning of fossil fuels, society has placed an emphasis on development of renewable energy sources. Some of these renewable energy sources rely on the separation or removal of acid gases, such as carbon dioxide, hydrochloric acid, hydrog…
  • College: College of Engineering (COE)
  • Inventors: Ho, W.S. Winston
  • Licensing Officer: Bartell, Cordellia

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