Metal Anode Electrolyte Button Bi-Layer - 2cm Diam

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Metal Anode Electrolyte Button Bi-Layer - 2cm Diam Specification

Purity
99.9% (typical for lab-grade anode materials)

Hardness
As per electrode material standard, ~200 HV (dependent on fabrication method)

Strength
High mechanical integrity suitable for electrochemical cell assembly

Material
Layer 1: Anode metal (Ni/Co/Li), Layer 2: Solid electrolyte (Li-ion conductive, e.g., LLZO or similar)

Alloy
Nickel-Cobalt or Lithium-based core (varies by application)

Shape
Other

Moisture
Low moisture content (< 0.5%)

Chemical Composition
Multi-layered: Metal (often Ni/Co alloy or lithium) and solid electrolyte (typically ceramic oxide or polymer electrolyte)

Application
Lab research, prototype solid-state battery fabrication, electrochemical cell testing

Dimension (L*W*H)
Diameter: 2cm; Thickness: approx. 2.0-3.0mm Centimeter (cm)

Color
Metallic silver-grey and white (as per visible image layer)

Thermal Stability
Stable up to 120C (depending on electrolyte used)

Porosity
Dense and non-porous for enhanced ionic/electronic conductivity

Shelf Life
More than 12 months under controlled ambient storage

Weight
Approx. 1.2 to 2.5 grams (depends on thickness)

Edge Type
Laser-cut rounded edge for precise cell construction

Layer Configuration
Bi-layer structure with direct contact between metal and electrolyte

Surface Finish
Smooth, mirror polish for optimal interface contact

Packing
Hermetically sealed in vacuum bag to prevent contamination

Electrical Conductivity
High (anode layer), ionic conductivity (electrolyte layer)

Compliance
Conforms to ASTM and ISO electrode material standards

Metal Anode Electrolyte Button Bi-Layer - 2cm Diam Trade Information

Payment Terms
Paypal

Delivery Time
15 Days

Main Export Market(s)
Asia

Main Domestic Market
All India

About Metal Anode Electrolyte Button Bi-Layer - 2cm Diam

AnodeElectrolyte Button Bi-Layer - 2cm Diam

ProductCode: 6201615

Solid Oxide FuelCell (SOFC) Anode Supported Bi-layers (AEB) are a great starting point forresearchers wanting to work on low temperature cathode materials. The AEBoffers a ceria interface for the cathode layer to prevent zirconate formation.

Optimal Interface, Maximum Performance

The button bi-layer's mirror-polished finish and dense, non-porous structure enable superior contact and conductivity, which is essential for accurate results in solid-state battery and electrochemical cell research. Its robust construction prevents contamination and improves mechanical stability during experimental setups.

Engineered for Research Versatility

With its dual-layer approach-high-conductivity anode metal and advanced solid electrolyte-the bi-layer button supports diverse battery chemistries and testing protocols. Precise laser-cut edges and rigorous material purity ensure repeatable experiments, ideal for distributors, manufacturers, and researchers.

FAQ's of Anode Electrolyte Button Bi-Layer - 2cm Diam:

Q: How is the Anode Electrolyte Button Bi-Layer commonly used in research and manufacturing?

A: This bi-layer button is primarily used for fabricating prototype solid-state batteries and conducting electrochemical cell experiments in laboratories, as well as for supply chain evaluation by manufacturers and distributors.

Q: What are the main benefits of the dense, non-porous, mirror-polished design?

A: The smooth, non-porous surface finish optimizes interface contact, enhances ionic and electronic conductivity, and minimizes contamination risks, resulting in highly accurate experimental outcomes.

Q: When should I opt for the bi-layer configuration over a single-layer disc?

A: Choose the bi-layer configuration when you require simultaneous high electronic conductivity (from the anode) and efficient ionic conduction (from the electrolyte), especially in multi-layered battery or advanced cell assembly research.

Q: Where does this button bi-layer meet material standards?

A: It conforms to ASTM and ISO electrode material standards, ensuring consistency and suitability for research and manufacturing settings in the United States and internationally.

Q: What process ensures the purity and mechanical integrity of the button bi-layer?

A: The production involves controlled atmosphere fabrication, laser-cutting for precision, and hermetic vacuum packing, resulting in 99.9% purity and robust strength, suitable for exacting lab requirements.

Q: How long can the button be stored before use and under what conditions?

A: With proper ambient storage, the bi-layer button maintains its properties for over 12 months, as its vacuum-sealed packaging protects it from moisture and other contaminants.

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