YT04 Electrolyte membrane battery
SKU: XN-BM-YT04
$230.00
[Customize and modify as required]
YT04 Electrolyte Membrane Battery Mold — customizable Swagelok-style liquid battery test cell engineered for electrolyte membrane battery research. Designed for material testing, prototype making, performance evaluation, process validation, safety testing, and customized research workflows. Fully customizable specifications — inner diameter, working pressure, operating temperature, and electrode materials configured to match your specific research requirements.
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Name: YT04 Electrolyte Membrane Battery Mold for Customized Battery Research
Mold Type: Customizable Swagelok-Style Liquid Battery Test Cell with Electrolyte Membrane Configuration
Product Code: XN-BM-YT04
Description:
The YT04 is a customizable Swagelok-style electrolyte membrane battery mold engineered for laboratory-scale liquid battery research. Liquid battery molds are mainly used in experiments for material testing, prototype making, performance evaluation, process validation, safety testing, and customized research — helping researchers conduct battery development and optimization efficiently and accurately. As a result, the YT04 serves as a versatile platform for fundamental research into electrolyte-membrane systems, where the membrane between the working and counter electrodes plays a defining role in the cell’s electrochemistry. The defining feature of the YT04 is its full customization capability — researchers specify inner diameter, working pressure, operating temperature, electrode materials, and membrane configuration to match the requirements of their specific electrolyte-membrane chemistry. Customization and modification are available on request — contact our team for detailed specifications and configuration options that match your research needs.
Application:
The YT04 mold is designed for laboratory-scale electrolyte membrane battery research, including ion-exchange membrane studies in two-electrode cell architecture, comparative membrane material studies (Nafion, sulfonated polymer, anion-exchange membranes), fundamental research into electrolyte-membrane interface phenomena, prototype development of new battery chemistries that depend on membrane separation, performance evaluation of candidate electrolyte and membrane combinations, process validation studies for membrane-cell production workflows, safety testing of cell behavior under varied membrane conditions, and academic studies of membrane crossover, ionic conductivity, and selectivity in liquid battery systems.
Customization-First Approach:
Unlike standardized off-the-shelf molds, the YT04 is designed from the ground up as a customizable research tool. As a result, every YT04 ships configured to the customer’s research-specific requirements rather than a generic specification. Contact our team to specify the parameters that match your research, including:
| Customizable Parameter | Configuration Options |
|---|---|
| Inner Diameter | Specified to match your electrode geometry and research scale |
| Working Pressure | Configured to match your stack-pressure protocol |
| Operating Temperature | Configured for room-temperature or elevated-temperature electrochemistry |
| Electrode Materials | Titanium alloy, pure titanium, high-purity molybdenum, or specialty materials on request |
| Membrane Configuration | Compatible with standard ion-exchange membranes (Nafion, anion-exchange, sulfonated polymer); membrane size and placement specified per application |
| Body Materials | PTFE (chemical inertness), copper (current collection), or alternative materials for chemistry-specific compatibility |
| Cell Geometry | Standard Swagelok cylindrical, T-shaped three-electrode, or specialty geometries on request |
| Sealing System | Configured for the specific atmosphere and electrolyte chemistry of your research |
Characteristics:
Customization-first research platform
The YT04 is engineered as a customization-first research mold rather than a fixed-specification product. As a result, researchers receive a fixture tailored to their specific electrolyte-membrane chemistry, sample geometry, and experimental protocol — eliminating the compromises that arise when generic molds are forced to fit specialized research applications.
Designed for the full liquid battery research workflow
Liquid battery molds are mainly used in experiments for material testing, prototype making, performance evaluation, process validation, safety testing, and customized research. Therefore, the YT04 supports the complete research lifecycle from initial material screening through prototype development and process validation — within a single configurable platform.
Membrane-focused architecture
The YT04 is specifically engineered for cells where the electrolyte membrane plays a central role in the electrochemistry — supporting comparative membrane studies, membrane crossover analysis, and selectivity research. Consequently, this mold is well-suited for research workflows that go beyond simple two-electrode electrochemistry into membrane-mediated battery chemistry.
Compatibility with the broader Xnergy YT-series
The YT04 follows the same Swagelok-style cell convention used across Xnergy’s YT-series — supporting consistent mechanical and electrical interfaces with YT01 (dual-electrode), YT02 (three-electrode), YT05 (dual-electrolyte), YT06 (liquid battery), YT07 (metal-air), YT08 (Ag/AgCl three-electrode), and YT09 (in-situ dendrite observation). As a result, advanced research labs can deploy the full YT-series for end-to-end Swagelok-cell battery research.
Material-flexible construction
The YT04 supports flexible material configuration — defaulting to PTFE (chemical inertness) and copper (electrical conductivity) for general-purpose applications, with alternative materials available for chemistry-specific compatibility. Therefore, researchers can match the cell construction to the demands of their specific electrolyte system.
Three standard electrode material options
Like other YT-series cells, the YT04 supports the three standard Xnergy electrode material options — titanium alloy (general-purpose corrosion resistance), pure titanium (highest-purity research applications), and high-purity molybdenum (specialized chemistry compatibility). Furthermore, alternative electrode materials are available on request for non-standard chemistry requirements.
Strong customer support for specification development
Because the YT04 is fundamentally a customizable research tool, Xnergy’s technical team works directly with researchers to specify configurations that match their specific research requirements. As a result, the YT04 ordering process includes consultation on electrode geometry, electrolyte compatibility, target pressure and temperature ranges, and membrane integration — ensuring the delivered fixture matches the experimental need.
Recommended Use Workflow:
1. Contact Xnergy’s technical team with your research application — including the electrolyte chemistry, target electrode materials, expected operating pressure and temperature, and membrane requirements. 2. Receive a configuration recommendation tailored to your research, with specifications for inner diameter, working pressure, operating temperature, electrode materials, and cell geometry. 3. Confirm the configuration and receive your customized YT04 mold. 4. Follow the included use instructions specific to your customized configuration. 5. After testing, follow standard cleaning and storage protocols (rinse with deionized water and isopropyl alcohol; dry thoroughly; store in the original protective case). 6. Contact Xnergy for replacement components, additional configurations, or modified versions as your research evolves.
Packaging & Storage:
Each YT04 mold ships in a protective foam-lined case with all customer-specified components, including the cell body in the configured material, electrode columns of the selected material, sealing components, fittings, and assembly hardware. Configuration-specific accessories (membranes, specialized seals, etc.) are included as ordered. Therefore, store in a dry environment (15–25 °C, RH < 40 %) protected from dust and chemical exposure. After each use, follow the cleaning and storage protocol provided with your specific configuration.
Safety:
For research and industrial laboratory use only. Always wear appropriate PPE (safety glasses, chemical-resistant gloves, lab coat) when handling electrolytes and assembling/disassembling the cell. Operate within the working pressure and operating temperature limits specified for your configured YT04 — these limits are documented in the configuration sheet provided with your order. When working with reactive materials (lithium-metal anodes, sulfide electrolytes, concentrated electrolytes), follow standard battery safety protocols, including glovebox-based assembly when required. Refer to the configuration-specific user manual for complete safety and operating instructions.
Note: Because the YT04 is configured to each customer’s specific research application, exact specifications are determined during the consultation process and documented in the configuration sheet that accompanies each order. Contact Xnergy for detailed specifications and configuration options that match your research needs. For researchers exploring complete liquid battery and electrochemistry research workflows, see also Xnergy’s related products: YT06 Liquid Battery Mold (companion liquid battery mold), YT01 Swagelok Dual-Electrode Mold, YT02 Swagelok Three-Electrode Mold, YT05 Dual-Electrolyte Swagelok Battery Mold, YT07 Swagelok Metal-Air Battery Test Cell, YT08 Swagelok-Type Three-Electrode Battery Test Cell, YT09 In-Situ Dendrite Observation Mold, YL01 Laboratory Flow Battery Testing Cell System, and YL02 CG Square Flow Battery Mold. Browse the full Battery Mold category for all configurations.
