Electro-organic-synthesis system

control and Improve organic processing

Electro-organic-synthesis achieves electron-transfer-driven reactions selectively. The electron transfer leads to oxidation or reduction of the reactant in solution and the formation of a reactive intermediate. The products are formed by the reactions of these intermediates, usually in the electrolyte. The potential applied to the electrode determines the driving force for electron transfer and controls the extent and rate of electron transfer.

The main advantage of electro synthesis over an ordinary redox reaction is avoidance of the potential wasteful other half-reaction and the ability to precisely tune the required potential and protects the environment by minimizing the toxic waste component of effluent.

The advantages electrochemical organic syntheses are good reasons for industries to be aware of advances in electrochemical processing which selectively performs the following organic reactions

  • Nitro Reduction
  • Halogenation    
  • Methoxylation
  • Acetoxylation
  • Hydrogenation  
  • Carboxylation
  • Coupling Reactions
  • Acetamidation
  • Dehalogenation
  • Cyanation

Capacity Range

TiTaN’s Capability

  • Lab Scale
  • Pilot Scale
  • Production Plant

TiTaN can help companies to establish lab scale electro-organic-synthesis system for their requirements and designs, engineers pilot scale plants to run all tests. Based on pilot testing TiTaN engineers and supplies production units. The pilot plant plays a key role and when it comes to scale-up, TiTaN performs seamless development from lab to production at a single site – for a one-stop solution to your needs.