H-Type Membrane Double Channel Photoelectrochemical Cell

H-Type Membrane Double Channel Photoelectrochemical Cell – Sealed Type

Overview

• The H-Type Membrane Double Channel Photoelectrochemical Cell is designed for dual-compartment PEC experiments where precise separation and optical illumination from multiple directions are required.
• Built from high-quality borosilicate glass and fitted with quartz windows (Ø 24 mm), this cell allows researchers to perform photoelectrocatalytic studies, CO₂ reduction, and hydrogen evolution under controlled, gas-tight conditions.
• The sealed H-type design provides a distinct anode and cathode chamber separated by an ion-exchange membrane, ensuring clean electrochemical environments while supporting simultaneous light exposure from both sides.

Key Features

• Dual optical channels: Two quartz windows (Ø 24 mm) provide illumination from either side for enhanced light absorption and reaction efficiency.
• Sealed H-type structure: Ensures airtight operation, preventing cross-contamination between anodic and cathodic chambers.
• Replaceable quartz windows and membranes: Easily dismantled for maintenance, cleaning, or membrane replacement.
• Glass and PTFE construction: Offers superior chemical resistance and compatibility with a wide range of electrolytes.
• Compact, modular design: Enables straightforward setup and integration with external temperature, gas, or light control systems.
• Precise reaction separation: Supports accurate measurement of photocatalytic and electrochemical activity in isolated chambers.

Available Capacities / Variants

• 50 mL
• 100 mL

Customisation Options

ScienceGears offers a variety of customisation options to support specific experimental setups:

• Different quartz window diameters or optical thicknesses
• Additional gas inlet/outlet ports or reference electrode ports
• Compatibility with various ion-exchange membranes
• Integration with in-situ Raman or UV–Vis optical paths
• Custom sealing configurations for pressure or vacuum operation

For tailored designs, contact info@sciencegears.com.au with your experimental requirements.

Applications

• Photoelectrocatalysis and solar fuel generation
• CO₂ reduction and hydrogen evolution studies
• Semiconductor PEC testing and photoanode characterisation
• Water-splitting and photocorrosion experiments
• Dual-chamber photocatalytic or electrocatalytic investigations