Add to ORKGThe NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2) cells and batteries. These electrodes are lighter in weight and have higher specific energy than the heavy sintered state of the art nickel electrodes. In the present approach, lightweight materials or plaques are used as conductive supports for the nickel hydroxide active material. These plaques (fiber, felt, and nickel plated plastic) are fabricated into nickel electrodes by electrochemically impregnating them with active material. Initial performance tests include capacity measurements at five discharge levels, C/2, 1.0C, 1.37C, 2.0C, and 2.74C. The electrodes that pass the initial tests are life cycle tested at 40 and 80 percent depths o...
The nickel metal hydride technology for battery application is relatively immature even though this ...
The research objective is to determine how the electrode microstructure (architecture) affect the pe...
Individual pressure vessel (IPV) nickel-hydrogen technology was advanced at NASA Lewis and under Lew...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
The nickel electrode was identified as the heaviest component of the nickel hydrogen (NiH2) battery....
Development of a high specific energy nickel electrode is the main goal of the lightweight nickel el...
The use of the lightweight nickel electrode, in place of the heavy-sintered state-of-the-art nickel ...
Studies are currently underway to further the development of lightweight nickel electrode technology...
Nickel electrodes made using lightweight plastic plaque are about half the weight of electrodes made...
Because of its relatively high specific energy and excellent cycling capability, the nickel-hydrogen...
Development of a high specific energy battery is one of the objectives of the lightweight nickel-hyd...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
A nickel electrode having a lightweight porous nickel substrate is subjected to a formation cycle in...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
Light weight energy storage systems for future space missions are investigated. One of the systems b...
The nickel metal hydride technology for battery application is relatively immature even though this ...
The research objective is to determine how the electrode microstructure (architecture) affect the pe...
Individual pressure vessel (IPV) nickel-hydrogen technology was advanced at NASA Lewis and under Lew...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
The nickel electrode was identified as the heaviest component of the nickel hydrogen (NiH2) battery....
Development of a high specific energy nickel electrode is the main goal of the lightweight nickel el...
The use of the lightweight nickel electrode, in place of the heavy-sintered state-of-the-art nickel ...
Studies are currently underway to further the development of lightweight nickel electrode technology...
Nickel electrodes made using lightweight plastic plaque are about half the weight of electrodes made...
Because of its relatively high specific energy and excellent cycling capability, the nickel-hydrogen...
Development of a high specific energy battery is one of the objectives of the lightweight nickel-hyd...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
A nickel electrode having a lightweight porous nickel substrate is subjected to a formation cycle in...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
Light weight energy storage systems for future space missions are investigated. One of the systems b...
The nickel metal hydride technology for battery application is relatively immature even though this ...
The research objective is to determine how the electrode microstructure (architecture) affect the pe...
Individual pressure vessel (IPV) nickel-hydrogen technology was advanced at NASA Lewis and under Lew...