Nano zirconia for batteries
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''>Product Introduction
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Nano zirconia for batteries Zirconia powder has fine nanoparticle size, uniform particle size distribution, no hard agglomeration and good sphericity
. During production, the content of each component is precisely controlled, uniform mixing of particles between different components is achieved, and particle size, shape and structure are strictly controlled to ensure product quality. The conductive properties of this product doped with different elements are used in electrode manufacturing in high-performance solid batteries.
The nano-zirconia battery is composed of a solid zirconia electrolyte (mostly yttrium-stabilized zirconia powder, referred to as yttrium-stabilized zirconia powder) and two platinum electrodes. Yttrium-stabilized nano-zirconia powder has been widely used in the field of solid oxide fuel cells as an ideal electrolyte due to its high oxygen ion conductivity and ideal stability in redox atmospheres.
It has good market application prospects and commercial value.
Technical indicators
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Appearance
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'>White powder
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'>Crystal phase
''>>Cubic phase
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''>Application characteristics< br/>''>
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''>Nano zirconia for batteries> is widely used in the production of solid oxide fuel cells,> oxygen sensors and microelectronic equipment
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''>Battery-specific nano-zirconia has high oxygen ion conductivity under high temperature conditions, >excellent mechanical properties and good redox stability
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''>Battery-specific nano-zirconia can also produce active element effects after being covered or dispersed on the surface of the alloy, >significantly improving the high-temperature oxidation resistance of the alloy and greatly improving the adhesion of the oxide film< br/>''>
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''>As an
''>electrolyte,
''>for batteries
it has been widely used as an ideal electrolyte used in solid oxide fuel cells.
''>Used to transfer the oxygen ions produced by the reaction
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''>At high temperatures of ~> degrees Celsius, the ions can pass
''>through
''> />''>Ceramic materials.
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''>Nano
''>Zirconium oxide is currently the most used electrolyte material, and its long-term stability of structure and performance is critical to solid oxide fuel cells System reliability is critical.
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''>Using battery-specific nano-zirconia
''>improved
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''>oxidation The zirconium concentration difference battery type oxygen detector
''> can effectively
''>extend the service life of the
''>product
''> and improve its accuracy. Reduce maintenance.
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''>Adding amount
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