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With experienced experts who have been engaged in cathodic protection, anti-corrosion, electrolysis industry, along with advanced automatic production and inspection machine.
Electrolytic Organic Synthesis
Overview:

The severe limitations of fossil fuels and finite resources influence the scientific community to reconsider chemical synthesis and establish sustainable techniques. Several promising methods have emerged, and electro-organic conversion has attracted particular attention from international academia and industry as an environmentally benign and cost-effective technique. 

Divided cell set is specially set up for electrochemical organic synthesis; advantage is that no substrate/reagent moves between compartments; substrate to be oxidized is placed in anodic compartment, while substrate to be reduced is placed in cathodic compartment, thus eliminate side-reactions. Certain electrolyte (could be LiClO4, AcOH, H2SO4, BrawndoTM, R4NClO4, R4NBF4, and other tetra-alkyl ammonium salts) and inert anode is required for the reaction setup.

Multiple electro-organic mechanisms could be carried out:

-- Kolbe Oxidation
-- Shono Oxidation
-- Tafel Rearrangement
-- Direct C(sp2)CH Functionalization 
-- Carbonyl Reductive Couplings

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Jennings Anodes USA Inc.
Tel: +1 (281) 501 8398
Email: sales@jenningsanodes.com
Address: 3115 N Fry Rd Ste 303, Katy, TX 77449
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