H-Type Jacketed Photoelectrochemical Cell, 3-Port

H-Type Jacketed Photoelectrochemical Cell, 3-Port

Overview

• The H-Type Jacketed Photoelectrochemical Cell is purpose-built for photoelectrochemical (PEC) and electrocatalytic research that requires precise temperature regulation, gas handling, and compartmentalised reaction control.
• Crafted from high-purity borosilicate glass and fitted with 24 mm removable quartz windows, this dual-chamber cell allows efficient light illumination, temperature-controlled operation, and rapid replacement of ion-exchange membranes.
• The integrated three-port configuration provides additional flexibility for gas sampling, reference electrode placement, or electrolyte management — making it ideal for CO₂ reduction, hydrogen evolution, and photoelectrocatalytic studies.
  
  

Key Features

• Dual-chamber H-type configuration: Enables separation of anodic and cathodic reactions for clean electrochemical measurements.
• Three-port design: Accommodates reference electrodes, gas inlet/outlet tubing, or sampling probes for advanced experiments.
• Replaceable quartz windows: Provide superior UV–Vis transparency and are easily removed for cleaning or replacement.
• Water-jacketed cell body: Allows coolant circulation for accurate temperature control during illumination or electrolysis.
• Rapid membrane replacement: Ion-exchange membranes can be replaced quickly to minimise downtime between experiments.
• Fully sealed assembly: Prevents gas crossover and ensures leak-free operation for both aqueous and non-aqueous systems.
• High chemical durability: Borosilicate glass and PTFE components resist corrosion and maintain optical clarity over extended use.

Available Capacities

• 50 mL
• 100 mL
• 150 mL

Customisation Options

ScienceGears offers customised versions of the H-Type Jacketed Photoelectrochemical Cell (3-Port) to suit specific research configurations:

• Additional ports for reference electrodes or gas purging
• Alternative quartz window diameters or optical path lengths
• Modified jacket fittings for integration with temperature control systems
• Optional side illumination or optical access ports
• Multi-electrode or gas-separation membrane support options

For tailored solutions, contact info@sciencegears.com.au with your experiment requirements.

Applications

• Photoelectrocatalysis and solar fuel research
• CO₂ reduction and hydrogen evolution experiments
• Semiconductor PEC electrode testing
• Electrocatalyst performance evaluation
• Water splitting and redox coupling studies