Small-Volume Membrane-Replaceable Photoelectrochemical Cell (Single Optical Window, Relatively Sealed) Model: C023-10

  • Quartz Window with >95% Transmittance
  • Replaceable Lock-Ring Window Assembly
  • Compatible with Extended-Type Electrodes
  • Elevated Cell Design Minimizes Entrapment
  • 10 mL Three-Electrode Configuration
  • Membrane-Separated Dual-Chamber Design
  • O-Ring Compressed Leak-Proof Sealing System

Small-Volume Membrane-Replaceable Photoelectrochemical Cell (Single Optical Window, Relatively Sealed) – Model: C023-10

The C023-10 Small-Volume Photoelectrochemical Cell is specifically designed for photoelectrochemical and spectroelectrochemical experiments where low electrolyte consumption and efficient light irradiation are essential. Featuring a high-transparency quartz optical window with over 95% light transmission, the cell is ideal for photocatalysis, photoelectrochemical water splitting, CO₂ reduction, semiconductor characterization, solar fuel research, and light-driven electrocatalytic studies.

The dual-chamber H-cell configuration separates the anodic and cathodic compartments using an ion-exchange membrane, minimizing product crossover while allowing selective ion transport. With a chamber volume of only 10 mL per side, the cell is particularly suitable for experiments involving precious catalysts, expensive electrolytes, and small-scale research studies. The reference and working electrodes are positioned in the same chamber to reduce IR drop and improve electrochemical accuracy. The removable quartz window design allows easy replacement and maintenance, while the elevated cell structure minimizes solution retention and enhances experimental reproducibility. Optional sampling ports can be incorporated for in-situ analysis, making the C023-10 an excellent platform for advanced photoelectrochemical investigations requiring separated reaction environments and efficient optical access.

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