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Zinc sulfur batteries catalyzed by dichalcogenides
050- 9499 Zinc sulfur batteries catalyzed by dichalcogenides A structurally stable catalyst to enhance the performance of zinc-sulfur aqueous batteries Background: Current battery technologies, predominantly lithium-ion, face significant drawbacks including high costs, reliance on scarce materials, and inherent safety risks like flammability....
Published: 1/29/2026
|
Inventor(s):
Amy Marschilok
,
Kenneth Takeuchi
,
Esther Takeuchi
Keywords(s):
Category(s):
Technology Classifications > Clean Energy
,
Technology Classifications > Energy Conservation
,
Campus > Stony Brook University
Composition and Process for Rechargeable Battery
Combining a high voltage rechargeable material and a high capacity/low voltage material to make a long-lasting rechargeable batteryRSS.HDBackground> Background: <Presently, state‑of‑the‑art batteries can be divided into two categories: rechargeable and primary. Rechargeable batteries can be discharged and charged multiple times, whereas primary...
Published: 8/27/2025
|
Inventor(s):
Esther Takeuchi
,
Amy Marschilok
,
Kenneth Takeuchi
Keywords(s):
Category(s):
Campus > Stony Brook University
,
Technology Classifications > Energy
,
Technology Classifications > Clean Energy
Electrode Materials for Group II Cation Based Batteries
Magnesium is more abundant than lithium and is air stable, so magnesium batteries make a promising replacement for li-ion batteries Background: Batteries are described as an alternative technology to lithium batteries which are currently in widespread use. New proposed battery technology will have significantly lower environmental impact than...
Published: 7/25/2025
|
Inventor(s):
Kenneth Takeuchi
,
Esther Takeuchi
,
Amy Marschilok
Keywords(s):
battery
,
Cathode
,
Electrode
,
group II
,
Technologies
Category(s):
Campus > Stony Brook University
,
Technology Classifications > Energy Conservation
,
Technology Classifications > Environment
Hybrid Electrolytes for Group II Cation Based Batteries
A hybrid electrolyte system with Group II cation batteries that are safer and have a lower environmental impact than lithium ion batteries Background: Lithium ion batteries and lead acid batteries are used as benchmark systems. Variation in the cost of specific batteries is dependent on factors such as design, manufacturing process and number of...
Published: 7/25/2025
|
Inventor(s):
Esther Takeuchi
,
Kenneth Takeuchi
,
Amy Marschilok
Keywords(s):
battery
,
Cathode
,
Electrode
,
group II
,
Technologies
Category(s):
Campus > Stony Brook University
,
Technology Classifications > Energy Conservation
,
Technology Classifications > Environment
Dual Function Ag-Lio-I Based Battery
Use of lithium/silver composite structures to create self-restoring cells in batteries. Background: Lithium ion batteries have powered many important devices during their development over the past several decades, such as pace makers and other bio-medical devices. Devices such as these are very reliant on lithium batteries because they are able to...
Published: 7/25/2025
|
Inventor(s):
Esther Takeuchi
,
Kenneth Takeuchi
,
Amy Marschilok
Keywords(s):
Technologies
Category(s):
Campus > Stony Brook University
,
Technology Classifications > Energy Conservation