GT17 Voltage-Stabilized Single-Stud Raman Testing Die – Quartz Window, φ6–10mm | Xnergy
GT17 Voltage-Stabilized Single-Stud Raman Testing Die — single-stud Raman testing die, voltage-stabilizing version. Features quartz window panel for optical access. Sample inner diameter (sleeve) φ6–10 mm (customizable). Built with stainless steel and PEEK. Room-temperature use. Can be customized and modified as required.
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Name: GT17 Voltage-Stabilized Single-Stud Raman Testing Die
Mold Type: Single-Stud Raman Testing Die (Voltage-Stabilizing Version)
Product Code: XN-BM-GT17
Description:
The GT17 is a single-stud Raman testing die in a voltage-stabilizing version. The mold features a quartz window panel for optical access. The GT17 has a sample inner diameter (sleeve diameter) of φ6–10 mm (customizable), is built with stainless steel and PEEK (polyether ether ketone), and is intended for room-temperature use. Can be customized and modified as required.
Application:
The GT17 is designed for laboratory in-situ Raman testing in a single-stud configuration. The voltage-stabilizing version supports Raman spectroscopic measurements where voltage stability during measurement is required.
Specifications:
| Parameter | Value |
|---|---|
| Mold Type | Single-stud Raman testing die |
| Version | Voltage-stabilizing version |
| Window | Quartz window panel |
| Sample Inner Diameter (Sleeve) | φ6 – 10 mm (customizable) |
| Frame Material | Stainless steel |
| Insulating Material | PEEK (polyether ether ketone) |
| Operating Conditions | Room temperature |
| Customization | Available on request |
Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.
Characteristics:
Single-stud configuration
The GT17 is a single-stud Raman testing die.
Voltage-stabilizing version
The GT17 is the voltage-stabilizing version of the single-stud Raman testing die.
Quartz window panel
The GT17 features a quartz window panel. Quartz is chemically inert and optically transparent across a wide spectral range used in Raman spectroscopy.
Customizable sample inner diameter (φ6–10 mm)
The sample inner diameter (sleeve diameter) is φ6–10 mm and is customizable.
Stainless steel and PEEK construction
The GT17 is built with stainless steel and PEEK (polyether ether ketone). PEEK is a high-performance thermoplastic with high dielectric strength and chemical stability against a wide range of chemicals.
Room-temperature operating conditions
The GT17 is intended for use at room temperature.
Customization available on request
The GT17 can be customized and modified as required. Contact Xnergy for configuration options that match your specific research requirements.
Recommended Operating Procedure:
1. Clean all mold components with isopropyl alcohol or other suitable cleaning solvent before each use; clean the quartz window panel with optical-grade lens cleaner and a non-abrasive lint-free cloth to avoid scratching. 2. Assemble the cell components in their designated positions, ensuring the sample area faces the quartz window panel. 3. Tighten the assembly hardware to maintain integrity during transfer to the Raman microscope. 4. Position the assembled die on the Raman microscope stage with the quartz window panel aligned to the laser objective. 5. Perform Raman spectroscopic measurements together with electrochemical measurements as required. 6. Operate at room temperature. 7. After testing, disassemble and clean all components before storage.
Packaging & Storage:
The GT17 ships with all components, including the stainless steel frame, PEEK insulating components, quartz window panel, single-stud assembly, sealing components, and assembly hardware. Store in a dry environment at room temperature, protected from dust and moisture. After each use, clean components with isopropyl alcohol, gently clean the quartz window panel with optical-grade lens cleaner, and store in a clean, dry environment to prevent window scratching or contamination.
Safety:
For research and industrial laboratory use only. Always wear appropriate PPE (safety glasses, chemical-resistant gloves, lab coat) when handling reactive materials and electrolytes. Operate at room temperature only. When working with reactive materials, follow standard laboratory safety protocols, including glovebox-based assembly when required. Handle the quartz window panel with care — quartz components can crack under impact loading or excessive thermal shock. Follow standard Raman laser safety protocols including laser eye protection and proper laser interlocks. Refer to the included user manual for complete safety and operating instructions.
Note: Specifications listed above are typical and for reference only. Actual performance depends on the specific sample chemistry and experimental conditions — consult published literature for guidance on specific in-situ Raman measurement protocols. For researchers exploring complete in-situ characterization workflows, see also Xnergy’s related products: GT06 In-Situ Raman Battery Test Cell, GT16 End-Face Raman Testing Mold, GT07 Monochrome X-Ray Battery Testing Mold, GT08 Microscopic Battery Test Mold, YT09 In-Situ Dendrite Observation Mold, GT01 Standard Solid-State Battery Mold, GT02 Standard Solid-State Battery Mold, GT03 High-Pressure Solid-State Battery Mold, GT04 Three-Electrode Solid-State Battery Mold, and GT05 Square Solid-State Battery Test Cell. Browse the full Battery Mold category for all configurations.
