C026 all-tetrafluoro electrolytic cell Introduction: The working principle of the electrolytic cell is to allow the current to pass through the electrolyte solution (or molten electrolyte) and cause a redox reaction at the cathode and anode, so as to realize the conversion of electrical energy into chemical energy. Technical features: 1. The electrolytic cell is a photoelectrochemical cell 2. The electrolytic cell window is made of quartz glass, with a light transmittance of more than 95% 3. The working electrode, auxiliary electrode and reference electrode of the electrolytic cell can be matched according to the needs. The diameter of the electrode rod is 6mm, all of which must be extended 4. The body material of the electrolytic cell is polytetrafluoroethylene 5. The electrolytic cell is often used in a three-electrode system. The volume of the electrolytic cell ranges from 30ml to 500ml, and can also be customized according to requirements. 6. The body part of the electrolytic cell is designed with an external thread opening, and the inner core of the lid is made of 360-degree rotating PTFE, so that the electrode corresponds to the channel accurately (generally the electrode is parallel to the light window). Outer lid to seal. 7. The electrode part of the electrolytic cell is sealed on the PTFE plug, and the sealing effect is achieved by squeezing ○ circles through the sealing screw. 8. The electrolytic cell is equipped with an aeration device that can ventilate under the liquid surface, and the atmosphere is carried out according to different experiments. 9. The electrolytic cell can add a sampling port on the cell body, at which time additional costs are required. 10. The quartz plate of the electrolytic cell is detachable and can be quickly replaced
Introduction: The working principle of the electrolytic cell is to allow the current to pass through the electrolyte solution (or molten electrolyte) and cause a redox reaction at the cathode and anode, so as to realize the conversion of electrical energy into chemical energy.