Add to ORKGThe energy density and power density of light weight aerospace batteries utilizing the nickel oxide electrode are often limited by the microstructures of both the collector and the resulting active deposit in/on the collector. Heretofore, these two microstructures were intimately linked to one another by the materials used to prepare the collector grid as well as the methods and conditions used to deposit the active material. Significant weight and performance advantages were demonstrated by Britton and Reid at NASA-LeRC using FIBREX nickel mats of ca. 28-32 microns diameter. Work in our laboratory investigated the potential performance advantages offered by nickel fiber composite electrodes containing a mixture of fibers as small as 2 micr...
Because of its relatively high specific energy and excellent cycling capability, the nickel-hydrogen...
This research represents a continuation of a project to assess the suitability of the microstructure...
An electrochemically impregnated sintered-nickel porous electrode with a capacity of 225 ± 10 mAh p...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
The research objective is to determine how the electrode microstructure (architecture) affect the pe...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
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...
Porous plaques that contain hollow nickel fibres are successfully prepared by a traditional slurry-s...
Nickel electrodes made using lightweight plastic plaque are about half the weight of electrodes made...
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...
Samples of nickel fiber mat electrodes were investigated over a wide range of fiber diameters, elect...
Nickel electrodes using fibrous substrates have poorer initial utilization of the active material th...
Because of its relatively high specific energy and excellent cycling capability, the nickel-hydrogen...
This research represents a continuation of a project to assess the suitability of the microstructure...
An electrochemically impregnated sintered-nickel porous electrode with a capacity of 225 ± 10 mAh p...
The energy density and power density of light weight aerospace batteries utilizing the nickel oxide ...
The research objective is to determine how the electrode microstructure (architecture) affect the pe...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
The NASA Lewis Research Center is currently developing nickel electrodes for nickel-hydrogen (Ni-H2)...
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...
Porous plaques that contain hollow nickel fibres are successfully prepared by a traditional slurry-s...
Nickel electrodes made using lightweight plastic plaque are about half the weight of electrodes made...
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...
Samples of nickel fiber mat electrodes were investigated over a wide range of fiber diameters, elect...
Nickel electrodes using fibrous substrates have poorer initial utilization of the active material th...
Because of its relatively high specific energy and excellent cycling capability, the nickel-hydrogen...
This research represents a continuation of a project to assess the suitability of the microstructure...
An electrochemically impregnated sintered-nickel porous electrode with a capacity of 225 ± 10 mAh p...