Photoelectrochemical Cell – Sealed Type

Photoelectrochemical Cell – Sealed Type

Overview

• The Sealed Photoelectrochemical Cell is engineered for precision photoelectrocatalytic and semiconductor research where control over environmental conditions is essential.
• Constructed from glass or PTFE and fitted with a removable quartz window (Ø 24 mm), this corrosion-resistant cell enables stable, leak-free operation under both illumination and bias conditions.
• The simple modular structure allows researchers to assemble, clean, and replace components quickly — making it an excellent choice for experiments involving hydrogen evolution, CO₂ reduction, and photoanode evaluation.

Key Features

• Corrosion-resistant construction: Durable glass or PTFE body compatible with a wide range of electrolytes.
• Replaceable quartz window: Ensures high UV–Vis light transmission and can be conveniently disassembled for cleaning or replacement.
• Sealed configuration: Maintains airtight operation to prevent gas leakage during photoelectrochemical measurements.
• Flexible electrode compatibility: Supports L-shaped working electrodes or standard electrode clamps for easy customisation.
• Compact and modular design: Simple structure for efficient setup, maintenance, and long-term use.
• Ideal for illuminated testing: Excellent optical path for precise control of light exposure in PEC and photocatalytic studies.

Available Capacities / Variants

• 50 mL
• 100 mL
• 150 mL

Customisation Options

ScienceGears provides tailored configurations to meet diverse experimental requirements, including:

• Alternative quartz window diameters or optical thicknesses
• Additional electrode or gas inlet ports
• Modified sealing for pressure or vacuum applications
• Integration with optical fibres or spectroscopic systems
• Temperature-controlled or multi-port variants

For customised builds, contact info@sciencegears.com.au with your research specifications.

Applications

• Photoelectrocatalysis and solar fuel generation
• Hydrogen and oxygen evolution studies
• CO₂ reduction and water-splitting experiments
• Semiconductor and thin-film PEC analysis
• Dye-sensitised and perovskite photoelectrode testing