PROCESS OF SYNTHESIS OF DIINDIOLS FROM ACETYLENE ALCOHOL IN NEW CATALYTIC SYSTEMS

  • Odiljon ZIYADULLAYEV Chirchiq davlat pedagogika universiteti ilmiy ishlar va innovatsiyalar bo‘yicha prorektori, kimyo fanlari doktori
  • Go‘zal OTAMUXAMEDOVA Chirchiq davlat pedagogika universiteti, ilmiy - tadqiqotlar, innovatsiyalar va ilmiy pedagog kadrlar tayyorlash bo‘limi boshlig‘i, kimyo fanlari bo‘yicha falsafa doktori
  • Sarvinoz TIRKASHEVA Jizzax davlat pedagogika universiteti, Tabiiy fanlar fakulteti kimyo va uni o‘qitish metodikasi kafedrsi o‘qituvchisi, kimyo fanlari bo‘yicha falsafa doktori
  • Valentin NENAYDENKO Moskva davlat universiteti Organik kimyo kafedra mudiri, kimyo fanlari doktori
  • Saida ABDURAXMANOVA O‘zbekiston Milliy Universiteti, Kimyo fakulteti, umumiy va neft-gaz kimyo kafedrasi katta o‘qituvchisi, kimyo fanlari bo‘yicha falsafa doktori
DOI: https://doi.org/10.69617/nuuz.v3i3.1.1.5434
Keywords: Terminal acetylene alcohols, diacetylene diols, dimerization, catalytic system, reaction mechanism, product yield

Abstract

In this work, diacetylene diols are formed based on the reaction of homolytic coupling of terminal acetylene alcohols with aliphatic, alicyclic, aromatic and heterocyclic molecules using copper (I) chloride as a catalyst, N,N,Nˊ,Nˊtetramethylethylenediamine as a ligand, carbon tetrachloride as oxidizing agent, methanol as solvent. The most optimal conditions for the dimerization of terminal acetylene alcohols were determined and the reaction kinetics were analyzed. Synthesized diacetylene diolls were identified, their composition, purity, structure and specific constants were proved by modern physico-chemical methods.

References

Krzysztof Kuciński, AlicjaŁuczak, Aliaksei Mankouski, Grzegorz Hreczycho Base-catalyzed addition of silylacetylenes to ketones: a route to protected tertiary propargyl alcohols // Organic Chemistry Frontiers, 2023. Volume 10, Issue 11, Pages 2752-2759.

S.Jiang, S.Du, R.Yang, F.Jin, Z.-Z. Zhou, W.-F. Tian, X.-R.Song, Q.Xiao Brønsted Acid Promoted Sulfonylation of Propargylic Alcohols: Synthesis of Triaryl Allenyl Sulfones under Mild Conditions // European Journal of Orgnic Chemistry 2023. p.e202201377.

A.R.Pandey, D.K.Tiwari, A.Prakhar, D.P.Mishra, S.K.Sharma A review towards synthesis of heterocycles using propargyl alcohols and propargyl amines // Monatshefte fur Chemie, 2022. Volume 153, pp. 383-407.

Qi Xie, Changhong Wang Polyacetylenes in herbal medicine: A comprehensive review of its occurrence, pharmacology, toxicology, and pharmacokinetics (2014–2021) // Phytochemistry, 2022. Volume 201, pp. 113-288.

Fatma M. Abdel Bar, Amira Mira, Ahmed I. Foudah, Manal A. Alossaimi, Shatha F. Alkanhal, Alanoud M. Aldaej and Mai H. ElNaggar In Vitro and In Silico Investigation of Polyacetylenes from Launaea capitata (Spreng.) Dandy as Potential COX-2, 5-LOX, and BchE Inhibitors // Molecules, 2023. Volume 28, Issue 8, pp. 3526.

Tirkasheva S.I., Ziyadullaev O.E., Samatov S.B., Buriyev F.X., Ikramov A. Dimerization of some terminal acetylene alcohols / VI North Caucasus Organic Chemistry Symposium, Stovropol (Russia), 2022. p. 133. 7. Rabia Akhtar, Ameer Fawad Zahoor Transition metal catalyzed Glaser and GlaserHay coupling reactions: Scope, classical/green methodologies and synthetic applications // Synthetic Communications, 2020. Volume 50, Issue 22, pp. 3337-3368.

Housecroft Catherine E., Alan G. Sharpe Inorganic Chemistry: – Harlow: Pearson Education, 2008. pp. 737-738.

Published
2024-11-29
How to Cite
ZIYADULLAYEV, O., OTAMUXAMEDOVA, G., TIRKASHEVA, S., NENAYDENKO, V., & ABDURAXMANOVA, S. (2024). PROCESS OF SYNTHESIS OF DIINDIOLS FROM ACETYLENE ALCOHOL IN NEW CATALYTIC SYSTEMS. News of the NUUz, 3(3.1.1), 317-320. https://doi.org/10.69617/nuuz.v3i3.1.1.5434
Issue
Vol. 3 No. 3.1.1 (2024): O'zMU XABARLARI (3.1.1 SONI) 2024
Section
Articles

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