The process of using electrolysis to perform oxidation-reduction reactions on organic compounds and produce new organic compounds is called organic electromechanical synthesis, also known as organic electromechanical chemistry.
Electrochemical synthesis of organic compounds can be divided into anodic oxidation electro synthesis and cathodic reduction electro synthesis.
This production process is of high quality, low consumption, and has no emissions of three wastes. The anodes used in conventional electrochemical synthesis, such as graphite, lead silver alloy, and lead dioxide, cannot meet production needs due to factors such as detachment, corrosion, low electrocatalytic activity, and unsuitable oxidation potential. Our company produces titanium anodes for electromechanical chemical synthesis, which are tailored to different usage conditions of customers and can extremely meet process requirements.
Electromechanical synthesis must meet the following three basic conditions:
① Continuous and stable (DC) power supply;
② Electrodes that meet the requirements of electron transfer;
③ A medium that can complete electronic movement.
Electromechanical synthesis has strong vitality and broad development prospects, and its advantages are highlighted in the following aspects:
Has selectivity and specificity in many situations;
No need to use expensive oxidants and reducing agents;
Clean, completing the oxidation-reduction reaction with the gain and loss of electrons, without the need for additional oxidants and reducing agents;
Less by-products;
Energy saving and easy to control
Small scale effect is particularly advantageous for the production of fine chemical products.
