L60-45 off-line single-chamber three-electrode reactor Introduction
The study of electrochemistry involves the mutual conversion between light energy, electrical energy and chemical energy. Through convenient control and detection of signals such as voltage and current, the conversion process of the three can be quickly reflected. Therefore, more and more researchers are investing in this direction to study the properties of materials under the composite photoelectric energy field.
In order to meet the scientific research needs in this regard, Perfila has introduced a highly air-tight and easy-to-connect photoelectric reactor. The reactor body is made of borosilicate glass, with bevel flange connection, O-ring seal, and multiple joints. The chain clamp is fixed for simple and convenient operation. Among them, the light window can be removed and cleaned; the electrodes are fixed by plugging and unplugging. Standard three-electrode system: working electrodes such as ITO / FTO or glassy carbon (straight or L-shaped) can be fixed with electrode clamps.
According to the structure, photoelectric reactors can be divided into single-chamber reactors and double-chamber reactors (also known as H-type reactors). The latter can fix the proton exchange membrane at the connection part of the two single-chambers so as to prevent the reaction media on both sides from directly mixing. It only conducts protons and avoids the occurrence of reverse reactions. Technical parameters
Integrated three-electrode top cover; (easy connection, high air tightness)
Reactor volume: 180ml;
Effective volume is about 90ml;
Quick link bevel flange fixture;
Bevel flange connection, sealing ring seal;
Detachable light window;
The reactor has air inlet and outlet;
There are valves on the air inlet and outlet;
With gas sampling port and liquid sampling port
Introduction
The study of electrochemistry involves the mutual conversion between light energy, electrical energy and chemical energy. Through convenient control and detection of signals such as voltage and current, the conversion process of the three can be quickly reflected. Therefore, more and more researchers are investing in this direction to study the properties of materials under the composite photoelectric energy field.
In order to meet the scientific research needs in this regard, Perfila has introduced a highly air-tight and easy-to-connect photoelectric reactor. The reactor body is made of borosilicate glass, with bevel flange connection, O-ring seal, and multiple joints. The chain clamp is fixed for simple and convenient operation. Among them, the light window can be removed and cleaned; the electrodes are fixed by plugging and unplugging. Standard three-electrode system: working electrodes such as ITO / FTO or glassy carbon (straight or L-shaped) can be fixed with electrode clamps.
According to the structure, photoelectric reactors can be divided into single-chamber reactors and double-chamber reactors (also known as H-type reactors). The latter can fix the proton exchange membrane at the connection part of the two single-chambers so as to prevent the reaction media on both sides from directly mixing. It only conducts protons and avoids the occurrence of reverse reactions.
