Leninsky Prospect, 47, Moscow
Phone: +7 499 137-29-44
Fax: +7 499 135-53-28

ZOIC RAS Innovation and Technical Department

The department includes:

  • Glasswork workshop
  • Autoclave workshop
  • Machine workshop (metal working, metal structures)

Address: Leninsky prosp. 47, 119991, Moscow

Tel. +7(499)135-5350, +7(499)137-7071
E-mail: itoioc.ac.ru

 

Group of Liquid-Phase Catalytic and Electrocatalytic Processes (N34)

Head:  Albert A. Vedeniapin, Prof., Dsc (Chem.) (e-mail: aavioc.ac.ru, tel. +7(499)135-5332)

Group is part to the Innovation and Technical Department. It was founded in 1989 by its current head.

Researsch Areas and Main Results

Elaboration of electrochemical and adsorption methods for neutralizing wastewater contaminated with organic substances.

Study of the electrochemical behavior of biologically active substances on metal and carbon electrodes.

Development of “green chemistry” electrochemical processes, in particular safe isolation of valuable metals from industrial waste.

Development of mathematical models of liquid and electrocatalytic processes of oxidation, synthesis and adsorption of biologically active organic compounds.

Electrochemical synthesis of vauluable commercial products for industry.

Monitoring of basic and applied research in environment-related chemistry.

Conferences organized by Institute:

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Important events:

We are happy to invite you to Zelinsky Institute of Organic Chemistry to take part in the International Conference ChemTrends-2018 on Organic & Hybrid Functional Materials and Additive Technologies to be held on September 23-28, 2018.
Professor Mario Pargliaro Lecturing at Zelinsky Institute Prof Mario Pagliaro (Palermo Italy) gave two talks on June 8th and 9th.
Selective In-Situ Metal Azide Reactions Alexey Sukhorukov, N. D. Zelinsky Institute of Organic Chemistry, Moscow, Russia, and colleagues studied the selective reactions of in-situ generated metal azides on N,N-bis(oxy)enamines. By combining readily generated bis(oxy)enamine substrates with sodium azide and one of a variety of metal salts (including Mg, Cu, Zn, Co, and Ni), the researchers showed that the metal cation selectively alters the mechanism to favor the formation of specific organoazide products.
On February 1st, Prof. Gleb Sukhorukov from the School of Engineering and Materials Science, Queen Mary, University of London, gave a lecture “Remote Controlled Delivery Nanosystems” at ZIOC.
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