1 4

Franklab

Super-Sealed Electrochemical Cell

Super-Sealed Electrochemical Cell

$55.00 USD
$55.00 USD
Sale Sold out
Shipping calculated at checkout.
Material
Size
View full details

Product Description

Product Overview
The FrankLab Super-Sealed Electrochemical Cell is designed for researchers who require a completely gas-tight, evaporation-resistant, and contamination-free environment for electrochemical experiments. With a precision-machined PTFE sealing lid and high-purity borosilicate or quartz glass chamber, this cell ensures stable performance under inert atmosphere, corrosive electrolytes, and long-duration electrolysis.
Ideal for HER/OER, CO₂RR, ORR, electro-analysis, corrosion studies, electrosynthesis, and any experiment sensitive to oxygen, moisture, or volatile solvents.

Available Volumes
Material 10 mL 25 mL 35 mL 50 mL 100 mL
Borosilicate Glass
Quartz Glass
Quartz recommended for UV/Vis/photochemistry or strong acids.

Key Features
  1. Fully Sealed PTFE Lid
· High-precision threaded seal prevents leakage and solvent evaporation
· 100% chemical inertness; suitable for strong acids, bases, and organic solvents
· Long-term stability for multi-hour electrolysis
  1. Multi-port Modular Lid Design
Each lid includes customizable electrode ports, typically:
· 1 × Working electrode port (6–10 mm)
· 1 × Reference electrode port (3–6 mm)
· 1 × Counter electrode port (6–10 mm)
· Optional: Gas inlet, gas outlet, temperature probe, pressure relief
Compatible with:
· RDE / RRDE electrodes
· Glassy carbon rods
· Metal wire electrodes
· Ag/AgCl, Hg/HgO, Saturated Calomel, pH probes
  1. High-Clarity Glass Chamber
· Borosilicate glass (3.3): Thermal shock resistance, everyday electrochemistry
· Quartz: Excellent optical clarity for photochemical or spectroelectrochemical studies
· Round bottom design allows uniform mixing
  1. Strong Mechanical Fixation
· Threaded PTFE collar provides stable clamping
· Prevents electrode wobble during stirring or bubbling
· Ensures reproducible electrode positioning
  1. Customization Service
FrankLab supports OEM specifications:
· Custom chamber volume (5–500 mL)
· Custom PTFE lid port size & configuration
· Bottom-exit port / jacketed design
· Electrode holder integration
· Gas diffusion module compatibility

Technical Specifications
Cell Body
Parameter Value
Material Borosilicate Glass / Quartz
Volume Options 10, 25, 35, 50, 100 mL
Temperature Range –20°C to 200°C (glass body)
Chemical Resistance Acids, bases, organic solvents
PTFE Lid
Parameter Value
Material PTFE
Temperature Range –40°C to 120°C
Port Configuration 3–6 ports (customizable)
Seal Type Threaded compression seal
Electrode Ports
Port Size
Working electrode 6–10 mm
Reference electrode 3–6 mm
Counter electrode 6–10 mm
Gas inlet/outlet 3–6 mm hose barb
Applications
· Hydrogen evolution (HER) / Oxygen evolution (OER)
· CO₂ reduction reaction (CO₂RR) under sealed conditions
· Electrosynthesis & electro-organic chemistry
· Corrosion studies & metal dissolution
· Long-term chronoamperometry / chronopotentiometry
· Air-sensitive or moisture-sensitive experiments
· Volatile organic solvent electrochemistry

Advantages of FrankLab Super-Sealed Cells
Industry-leading sealing performance
No leakage even with vigorous bubbling.
Suitable for both aqueous & non-aqueous electrolytes
100% PTFE interface ensures solvent compatibility.
Modular, flexible & durable
Electrode configurations can be swapped within seconds.
Laboratory-grade craftsmanship
Machined to high tolerances for reproducible research.

Optional Accessories
· Glassy carbon electrode rods (Ø3–6 mm)
· Ag/AgCl / Hg/HgO / SCE reference electrodes
· Pt wire counter electrodes
· Gas diffusion modules
· Magnetic stir bar + bottom stirrer platform
· Temperature probe adapters

 

For Custom Orders or Inquiries

If you have custom requirements or any additional questions, feel free to contact us:

Email: support@franklab.shop


Why Choose FrankLab?

FrankLab electrochemical cells are designed by electrochemists, for electrochemists. Our focus is on:

Clean geometry

•Chemical reliability

•Experimental reproducibility

•Compatibility with real research workflows

Used by universities, national labs, and industrial R&D teams worldwide.