Exploration of Teslaman high-voltage power supply in the field of bipolar electrochemistry
Bipolar electrochemistry, as a new research direction in recent years, has been researched by many researchers with time and energy. The interaction of electricity and chemical reactions can be accomplished by batteries or by electrostatic discharge of high-voltage power sources, both of which are collectively referred to as electrochemistry. Teslaman's high-voltage power supply is typically used in electrochemistry under the working condition of DC high voltage 30kV. As far as we know, the bipolar electrode is any kind of conductive material, such as platinum wire and graphite rod. It is placed in a container containing an electroactive solution. When a high voltage is applied to both ends, one end becomes the anode and the other is the anode. One end is the cathode. When the applied voltage is large enough, the electroactive species undergo oxidation and reduction reactions at the anode and cathode, respectively. In this working process, the stability and control characteristics of the high-voltage power supply are highly demanded, which directly affects the effect of the experiment and a series of test data.
In this area of research, it occupies a special place in the material science community due to its unique structural properties. In the case of studying the charged interface phenomenon formed by two types of conductors and the changes that occur thereon, it has now been used in chemical industry, metallurgy, machinery, electronics, aviation, aerospace, light industry, instrumentation, medicine, materials, energy, metal corrosion and It has been widely used in scientific and technological fields such as protection and environmental science.
The rapid development of bipolar electrochemistry will surely bring a new challenge to the field of materials and chemistry. Teslaman is willing to work hand in hand with people in the industry to explore the future.