Add to ORKGFuture NASA missions require high specific energy battery technologies, greater than 400 Wh/kg. Current NASA missions are using "state-of-the-art" (SOA) Li-ion batteries (LIB), which consist of a metal oxide cathode, a graphite anode and an organic electrolyte. NASA Glenn Research Center is currently studying the physical and electrochemical properties of the anode-electrolyte interface for ionic liquid based Li-air batteries. The voltage-time profiles for Pyr13FSI and Pyr14TFSI ionic liquids electrolytes studies on symmetric cells show low over-potentials and no dendritic lithium morphology. Cyclic voltammetry measurements indicate that these ionic liquids have a wide electrochemical window. As a continuation of this work, sp2 carbon catho...
NASA is developing high specific energy and high specific capacity lithium-ion battery (LIB) technol...
Li-Air batteries are a unique fit for electric aircraft due to their high theoretical energy densiti...
The NASA Glenn Research Center (GRC) Electrochemistry Branch designed and produced five lithium-ion ...
NASA future missions demand safe, high specific energy (>400 Wh/kg) batteries. Current state-of-the-...
NASA's future missions demand high energy density batteries. Current state-of-the-art lithium-ion ba...
The primary obstacle to enable NASA's vision of Green Aviation is the extraordinary energy storage r...
Lithium-ion batteries have attractive performance characteristics that are well suited to a number o...
Li-Air batteries are a unique fit for electric aircraft due to their high theoretical energy densiti...
A flight-qualified, lithium-ion (Li-ion) battery developed for the Mars Surveyor Program 2001 Lander...
In fiscal year 1997, NASA, the Jet Propulsion Laboratory, and the U.S. Air Force established a joint...
Commercialization of lithium-air batteries face many challenges, such as electrolyte decomposition, ...
Commercialization of lithium-air batteries faces many challenges, such as electrolyte decomposition,...
During the second year of research under NASA SBIR Contract NAS7-967, Covalent Associates and NASA c...
A novel, low-cost approach to stabilization of Li metal anodes for high-performance rechargeable bat...
The performance characteristics of ambient temperature secondary lithium batteries were determined t...
NASA is developing high specific energy and high specific capacity lithium-ion battery (LIB) technol...
Li-Air batteries are a unique fit for electric aircraft due to their high theoretical energy densiti...
The NASA Glenn Research Center (GRC) Electrochemistry Branch designed and produced five lithium-ion ...
NASA future missions demand safe, high specific energy (>400 Wh/kg) batteries. Current state-of-the-...
NASA's future missions demand high energy density batteries. Current state-of-the-art lithium-ion ba...
The primary obstacle to enable NASA's vision of Green Aviation is the extraordinary energy storage r...
Lithium-ion batteries have attractive performance characteristics that are well suited to a number o...
Li-Air batteries are a unique fit for electric aircraft due to their high theoretical energy densiti...
A flight-qualified, lithium-ion (Li-ion) battery developed for the Mars Surveyor Program 2001 Lander...
In fiscal year 1997, NASA, the Jet Propulsion Laboratory, and the U.S. Air Force established a joint...
Commercialization of lithium-air batteries face many challenges, such as electrolyte decomposition, ...
Commercialization of lithium-air batteries faces many challenges, such as electrolyte decomposition,...
During the second year of research under NASA SBIR Contract NAS7-967, Covalent Associates and NASA c...
A novel, low-cost approach to stabilization of Li metal anodes for high-performance rechargeable bat...
The performance characteristics of ambient temperature secondary lithium batteries were determined t...
NASA is developing high specific energy and high specific capacity lithium-ion battery (LIB) technol...
Li-Air batteries are a unique fit for electric aircraft due to their high theoretical energy densiti...
The NASA Glenn Research Center (GRC) Electrochemistry Branch designed and produced five lithium-ion ...