Keyword: Battery cell chemistry

Briefs: Materials
Decreasing Anode Corrosion in Metal-Air Batteries

Metal-air batteries can be used in a variety of applications ranging from range extenders for electric vehicles to emergency power systems. Metal-sea-water batteries are primarily used for underwater applications ranging from torpedoes to underwater unmanned vehicles. A team of researchers at the...

Briefs: Energy

Electric vehicle batteries typically require a tradeoff between safety and energy density. If the battery has high energy and power density — required for uphill driving or merging on...

Briefs: Energy
The battery is smaller than a traditional lithium-ion battery due to the elimination of dendrites.
Briefs: Energy
The material enables lithium-ion batteries to be safely recharged within minutes for thousands of cycles.
Briefs: Sensors/Data Acquisition
A new technique for measuring the performance of lithium batteries uses thermal waves to measure local lithium concentration as a function of depth inside battery electrodes.
Briefs: Energy
A machine learning method promises to predict battery health with 10 times higher accuracy than the current industry standard.
Briefs: Materials
The battery charges faster than a lithium-ion battery and is fire-safe and eco-friendly.
Briefs: Wearables
The biofuel cells can power wearable electronics purely by using human sweat.
Briefs: Energy
A new design could extend the shelf-life of single-use metal-air batteries for electric vehicles, off-grid storage, and other applications.
Briefs: Power
A new anode for aqueous batteries uses seawater as an electrolyte.
Briefs: Energy
The approach could advance the potential of high-powered, solid-electrolyte lithium batteries.
Briefs: Test & Measurement
The technology could help improve the reliability and performance of lithium-ion batteries.
Briefs: Test & Measurement
The model helps researchers fine-tune battery performance.
Briefs: Energy
A new anode for aqueous batteries uses seawater as an electrolyte.
Articles: Materials
A new generation of lithium-ion batteries is poised to improve electric vehicle range and affordability.
Briefs: Lighting
An entire 20-story concrete building could store energy like a giant battery.
Briefs: Transportation
The membrane prevents dendrite formation, at least doubling the lifetime of a lithium-metal battery.
Briefs: Automotive
Solid-state batteries offer a higher level of safety and potentially longer life than lithium-ion batteries.
Briefs: Electronics & Computers
New cell chemistry utilizes less costly and more abundant materials than lithium-ion batteries.
Articles: Transportation
The online Battery and Electrification Summit on June 15 and 16, 2021 offers two days of expert insight, innovation, and emerging applications.
Briefs: Automotive
The cathodes could enhance energy density of next-generation Li-ion batteries.
Articles: Electronics & Computers
A disruptive manufacturing technology now offers reduced manufacturing costs and improved volumetric energy density in all-solid cells.
Briefs: Energy
The alloy could influence the way energy storage devices are designed and manufactured.
Articles: Electronics & Computers
When it comes to the research and development of batteries, modeling and simulation (M&S) provide an efficient and low-cost approach.
Articles: Energy
Energy is absorbed in the diamond through a process called inelastic scattering, which is used to generate electricity.
Briefs: Energy
The method could be key to designing more efficient batteries for specific uses such as electric cars and airplanes.
Briefs: Nanotechnology
This technology charges lithium batteries faster and reduces the risk of device explosions.
Articles: Energy
NASA-funded research by Clemson University scientists could lead to the creation of lighter, faster-charging batteries suitable for powering a spacesuit or even a Mars rover.
Articles: Software
To achieve vehicle manufacturers’ ambitious goals for electric vehicles, Li-ion batteries need to be improved.