Jacketed Photoelectrochemical Cell – Sealed Type

Jacketed Photoelectrochemical Cell – Sealed Type (Model SEC027-S)

Overview

• The Jacketed Photoelectrochemical Cell is a high-precision system designed for photoelectrocatalytic and photoelectrochemical (PEC) studies that require both temperature stability and a sealed reaction environment.
• Constructed from borosilicate glass with a removable quartz window (Ø 24 mm), this sealed cell ensures excellent optical transmission for UV–Vis and solar illumination experiments. The integrated water-circulation jacket enables precise thermal control during long-duration experiments, ensuring reproducible results in hydrogen evolution, CO₂ reduction, and photoanode characterisation.
• Its compact, modular structure provides researchers with both reliability and flexibility, making it ideal for advanced PEC and electrochemical testing in research laboratories.

Key Features

• Temperature-controlled jacket: Integrated glass jacket enables circulation of water or coolant for accurate temperature management.
• Sealed reaction chamber: Prevents gas leakage and maintains a stable experimental environment.
• Removable quartz window: High optical transmission (Ø 24 mm) for efficient illumination; easily replaceable for maintenance.
• Chemically resistant materials: Borosilicate glass and PTFE ensure durability and corrosion resistance.
• Compact modular design: Facilitates easy assembly, cleaning, and customisation for specific research needs.
• Ideal for advanced PEC work: Stable structure suitable for studies requiring controlled temperature and gas-tight operation.

Available Capacities / Variants

• 50 mL
• 100 mL
• 150 mL

Customisation Options

ScienceGears offers custom configurations of the Jacketed Photoelectrochemical Cell to suit specific experimental setups, including:

• Custom window sizes, diameters, or optical path lengths
• Additional reference or gas inlet/outlet ports
• Modified jacket fittings for temperature control systems
• Optical path alignment for in-situ spectroscopy (Raman, UV–Vis, or IR)
• Integration with gas collection systems or multi-port sealing caps

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

Applications

• Photoelectrocatalysis and solar fuel generation
• CO₂ reduction and hydrogen evolution studies
• Semiconductor PEC testing and photoanode characterisation
• Photocatalytic degradation and oxidation processes
• Light-assisted electrochemical reaction studies