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Franklab
Fused Quartz Electrochemical Cell
Fused Quartz Electrochemical Cell
Regular price
$129.00 USD
Regular price
Sale price
$129.00 USD
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Product Description
Fused Quartz Electrochemical Cell
High-Temperature · High-Purity · Optical-Grade Electrochemical Reactor
Product Overview
The FrankLab Fused Quartz Electrochemical Cell is a high-performance electrochemical reactor designed for experiments requiring exceptional chemical purity, thermal stability, and optical transparency.
Manufactured from high-purity fused quartz, this cell is ideal for photoelectrochemistry, high-temperature electrolysis, UV/Vis-coupled measurements, and electrochemical systems where conventional borosilicate glass reaches its limits.
Available in multiple volumes and geometries, with optional sealed configurations and support stands, this cell is widely used in advanced research laboratories and pilot-scale electrochemical studies.
Available Configurations
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Standard Open Quartz Electrochemical Cell
•Open-top design
•Suitable for routine electrochemical testing
•Easy electrode insertion and visual observation
•Compatible with external temperature control systems
✔ Best choice for general electrochemistry and photo-assisted studies
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Sealed Quartz Electrochemical Cell
•Quartz body + sealed lid
•Reduced evaporation and contamination
•Suitable for long-term electrolysis and controlled atmospheres
✔ Best choice for high-temperature or volatile electrolyte systems
-
Quartz Cell with Support Stand
•Integrated mechanical stand for stability
•Precise electrode positioning
•Suitable for multi-electrode setups and in-situ measurements
✔ Best choice for systematic testing and repeatable experiments
Technical Specifications
| Parameter | Value |
| Material | High-purity fused quartz |
| Optical transparency | UV–Vis–NIR |
| Temperature resistance | >1000 °C (material limit) |
| Chemical resistance | Excellent (acid / alkali / organic solvents) |
| Available sizes (geometry) | 50×50×50 mm / 60×60×60 mm / 80×80×80 mm |
| Available volumes | 30 mL / 50 mL / 100 mL / 200 mL / 300 mL |
| Sealing options | Open / Sealed |
| Stand option | Available |
| Electrode ports | Customizable |
| Compatible electrodes | GC, Pt, Au, metal plates, reference electrodes |
Key Features
• Ultra-High Purity Quartz Construction
Fused quartz minimizes background contamination, making it suitable for trace-level electrochemical and photoelectrochemical studies.
•Superior Thermal Stability
Unlike borosilicate glass, fused quartz maintains structural integrity under high-temperature and thermal cycling conditions.
• Optical-Grade Transparency
Perfect for photoelectrochemistry, in-situ UV–Vis, laser-assisted electrochemistry, and visual reaction monitoring.
• Modular & Customizable Design
Cell dimensions, electrode openings, sealing structures, and mounting methods can be adapted to your experimental workflow.
Typical Applications
•Photoelectrochemical water splitting
•UV-assisted electrocatalysis
•High-temperature electrolysis
•Semiconductor electrode studies
•Optical-electrochemical coupling experiments
•Advanced materials screening
Comparison: Fused Quartz vs Borosilicate Glass
| Feature | Borosilicate | Fused Quartz |
| Max working temperature | ~200 °C | >1000 °C |
| UV transparency | Limited | Excellent |
| Chemical purity | High | Ultra-high |
| Photoelectrochemistry | Limited | Ideal |
| Cost | Lower | Higher |
Customization Options
Available upon request:
•Custom volumes or geometries
•Sealed or gas-tight lids
•Electrode port number and angle optimization
•Quartz windows for optical access
•Integrated electrode holders (PEEK / PTFE)
•Custom mounting stands
For Custom Orders or Inquiries
If you have custom requirements or any additional questions, feel free to contact us:
Email: support@franklab.shop
Why Choose FrankLab?
FrankLab electrochemical cells are designed by electrochemists, for electrochemists. Our focus is on:
•Clean geometry
•Chemical reliability
•Experimental reproducibility
•Compatibility with real research workflows
Used by universities, national labs, and industrial R&D teams worldwide.