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Anode Electrolyte Button Bi-Layer - 2cm Diam

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Anode Electrolyte Button Bi-Layer - 2cm Diam

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Anode Electrolyte Button Bi-Layer - 2cm Diam Specification

Purity
99.9% (Typical)

Hardness
Medium (varies with composition, est. 100-120 HV)

Strength
Moderate; suitable for button-cell electrochemistry

Product Type
Anode Electrolyte Bi-Layer Button

Material
Metal anode + solid electrolyte

Alloy
Bi-layered; specific alloy for anode component (e.g., Li-Co, Na-Mg) depending on requirement

Shape
Disc/Button

Moisture
<0.2% (low, as per electrochemical standard environments)

Chemical Composition
Bi-layer with Anode (typically Lithium, Sodium, or specialized conductive/alloy metal) and Electrolyte (Solid Ceramic, Polymer, or Glass-based electrolyte)

Application
Solid-state battery research, coin cell prototyping, electrochemical cell fabrication

Dimension (L*W*H)
Diameter: 2 cm, Thickness: ~2-5 mm

Color
Silver/Grey

Surface Finish
Polished, flat-faced for optimal electrical contact

Compatibility
Compatible with standard laboratory coin cell hardware

Edge Profile
Chamfered or rounded for safety and easy cell assembly

Ionic Conductivity
1 x 10^-4 S/cm at room temperature (typical)

Packaging
Vacuum sealed or argon-filled packaging

Storage Conditions
Store in moisture-free, inert atmosphere

Thermal Stability
Up to 200C (depends on electrolyte material)

Manufacturing Method
Bilateral pressing and sintering

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 Anode Electrolyte Button Bi-Layer - 2cm Diam

AnodeElectrolyte Button Bi-Layer - 2cm Diam

ProductCode: 6201615

Solid Oxide Fuel Cell (SOFC) Anode Supported Bi-layers (AEB) are a greatstarting point for researchers wanting to work on low temperature cathodematerials. The AEB offers a ceria interface for the cathode layer to preventzirconate formation.

Optimized Design for Reliable Performance

This bi-layer button is crafted with a polished, flat-faced surface ensuring optimal electrical contact during solid-state battery testing and assembly. The chamfered or rounded edge profile not only enhances safety but also allows for smoother integration into laboratory coin cell hardware, minimizing the risk of edge-related failures.

Superior Material and Electrochemical Properties

With a purity level of 99.9% and bilateral press-sintered manufacturing, the product maintains high structural integrity and conductivity. Its bi-layer composition-featuring a specialized alloy anode and a ceramic, polymer, or glass-based electrolyte-ensures low moisture content and solid thermal stability for reproducible and accurate battery research.

Ideal for Advanced Battery Research and Prototyping

Specially designed for solid-state battery prototyping, this bi-layer button excels in laboratory coin cell assembly, offering consistent performance and compatibility across various research environments. Its moderate strength and medium hardness make it reliable for repeated testing cycles common in electrochemical cell fabrication.

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

Q: How should the Anode Electrolyte Button Bi-Layer be stored for longevity?

A: To ensure maximum performance and prevent moisture-related degradation, the button bi-layer should be stored in a moisture-free, inert environment-preferably inside the provided vacuum-sealed or argon-filled packaging until it is ready for use.

Q: What advantages does the polished, flat-faced surface offer during cell assembly?

A: The polished, flat-faced surface provides uniform and optimal electrical contact within the coin cell, enhancing measurement accuracy and minimizing contact resistance during electrochemical testing.

Q: When is this bi-layer best utilized in research applications?

A: This product is ideal for use during solid-state battery research, coin cell prototyping, and other laboratory-scale electrochemical investigations where high purity, precise dimensions, and controlled ionic conductivity are critical.

Q: Where can the Anode Electrolyte Button Bi-Layer be integrated?

A: It can be seamlessly integrated with standard laboratory coin cell hardware and is compatible with most U.S.-based laboratory equipment for solid-state battery and electrochemical cell studies.

Q: What is the manufacturing process behind this bi-layer component?

A: The button is fabricated via bilateral pressing and sintering, ensuring a dense, securely bonded interface between the anode and electrolyte layers for enhanced reproducibility and mechanical reliability.

Q: How does the bi-layer composition benefit solid-state battery research?

A: The combination of a conductive metal alloy anode and a solid electrolyte in a single compact button enables efficient ion transport, reliable electrochemical interfaces, and simplifies assembly for rapid prototyping and research testing.

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