Swagelok-Type Metal-Air Battery Test Cell for Electrochemical Research – YT07

Name: YT07 Swagelok-Type Metal-Air Battery Test Cell

Mold Type: Swagelok-Style Air Battery Test Cell

Product Code: XN-BM-YT07

Description:

The YT07 is a Swagelok-style air battery test cell with an integrated φ2 mm pore. The cell is built with PTFE and copper and supports a working pressure of 10 MPa, an inner diameter range of φ10–20 mm, and an operating temperature of ≤ 200 °C. The YT07 ships with a choice of three electrode materials: titanium alloy, pure titanium, or high-purity molybdenum. The product is corrosion-resistant with good electrical conductivity, and has a net weight of 0.4 kg. Can be customized and modified as required.

Application:

The YT07 is designed for laboratory air battery testing and electrochemical research. The Swagelok-style architecture and integrated φ2 mm pore support metal-air battery experiments where controlled atmospheric access at the air electrode is required.

Specifications:

Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.

Available Electrode Materials:

Characteristics:

Swagelok-style air battery cell architecture

The YT07 follows the Swagelok-style cell convention — a standardized cylindrical assembly used in laboratory electrochemistry research.

φ2 mm pore for atmospheric access

The YT07 features an integrated φ2 mm pore, which provides atmospheric access to the air electrode side of the cell.

PTFE and copper construction

The YT07 is built with PTFE (polytetrafluoroethylene) and copper. PTFE is a fluoropolymer known for its high chemical inertness against a wide range of chemicals.

Three electrode material options

The YT07 ships with a choice of three electrode materials: titanium alloy, pure titanium, or high-purity molybdenum. The selection is made by the customer based on their specific research application.

Working pressure of 10 MPa

The YT07 is rated for a working pressure of 10 MPa.

Operating temperature ≤ 200 °C

The operating temperature limit of the YT07 is ≤ 200 °C.

Corrosion-resistant with good electrical conductivity

The YT07 features corrosion-resistant construction and good electrical conductivity.

Compact form factor (0.4 kg net weight)

At 0.4 kg net weight, the YT07 features a compact form factor suitable for laboratory benchtop deployment.

Customization available on request

The YT07 can be customized and modified as required. Contact Xnergy for configuration options that match your specific research requirements.

Recommended Operating Procedure:

1. Clean all components (PTFE body, copper components, electrode columns) with isopropyl alcohol or other suitable cleaning solvent before each use; dry thoroughly. 2. Select the desired electrode material (titanium alloy, pure titanium, or high-purity molybdenum) for your research application. 3. Assemble the cell components, including the metal anode, separator, electrolyte, and air electrode, in their designated positions. 4. Insert the selected electrode columns and tighten the Swagelok-style fittings; do not exceed the rated working pressure of 10 MPa. 5. Position the φ2 mm pore opening to face the desired atmosphere as required by your experiment. 6. Connect the cell electrodes to the cycling tester or potentiostat. 7. Operate within the specified temperature limit of ≤ 200 °C. 8. After testing, allow the cell to cool to room temperature, release pressure gradually, drain electrolyte safely, and clean all components before storage.

Packaging & Storage:

The YT07 ships with all components, including the PTFE/copper cell body, selected electrode columns (titanium alloy, pure titanium, or high-purity molybdenum), Swagelok-style fittings, sealing components, and assembly hardware. Store in a dry environment at room temperature, protected from dust and chemical exposure. After each use, clean wetted-surface components, dry thoroughly, and store in a clean, dry environment.

Safety:

For research and industrial laboratory use only. Do not exceed the maximum working pressure (10 MPa) or operating temperature (200 °C). Always wear appropriate PPE (safety glasses, chemical-resistant gloves, lab coat) when handling electrolytes and reactive metal anodes. When working with reactive metals or moisture-sensitive electrolytes, follow standard laboratory safety protocols, including glovebox-based assembly when required. For elevated-temperature operation, allow the cell to cool to room temperature before any disassembly. Refer to the included user manual for complete safety and operating instructions.

Note: Specifications listed above are typical and for reference only. Actual performance and chemical compatibility depend on the specific air battery chemistry, electrolyte composition, atmosphere conditions, and experimental setup — consult published literature for guidance on specific air battery testing protocols. For researchers exploring complete air battery and electrochemistry research workflows, see also Xnergy’s related products: KQ01 Air Battery Mold, YT06 Liquid Battery Mold, YT05 Dual-Electrolyte Swagelok Battery Mold, YT09 In-Situ Dendrite Observation Mold, YT01 Swagelok Dual-Electrode Mold, YT02 Swagelok Three-Electrode Mold, YT08 Swagelok-Type Battery Test Cell, and YL04 CG In-Situ Heated Liquid Observation Mold. Browse the full Battery Mold category for all configurations.