Synthesis of novel phosphonium salts derived from tertiary phosphines and substituted acrylic acids

During the synthesis of phosphabetaines and phosphonium salts that are good catalysts and antimicrobial agents, the formation of triphenylphosphine oxide was observed. A new synthesis method for phosphonium salts based on tertiary phosphines and substituted acrylic acids was suggested. In vitro anti...

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Published inPhosphorus, Sulfur, and Silicon and the Related Elements: ICPC-23: 23rd International Conference on Phosphorus Chemistry; Guest Editors:Professor Jozef Drabowicz; Professor Piotr Kiełbasiński and Professor Tomasz Cierpiał Vol. 197; no. 5-6; pp. 615 - 619
Main Authors Romanov, Semyon R., Nafikova, Azaliia V., Padenko, Alena V., Moryasheva, Anastasia D., Bakhtiyarova, Vasilisa S., Fedorenko, Ekaterina V., Shulaeva, Marina P., Pozdeev, Oskar K., Zvereva, Elvira R., Galkina, Irina V., Bakhtiyarova, Yulia V.
Format Report
LanguageEnglish
Published Taylor & Francis 22.06.2022
Subjects
Antimicrobial activity
new synthesis method
phosphine oxide
phosphonium salts
triphenylphosphine
unsaturated carboxylic acid
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Summary:During the synthesis of phosphabetaines and phosphonium salts that are good catalysts and antimicrobial agents, the formation of triphenylphosphine oxide was observed. A new synthesis method for phosphonium salts based on tertiary phosphines and substituted acrylic acids was suggested. In vitro antibacterial and antimycotic activity was determined in comparison to standard agents.
ISSN:1042-6507
1563-5325
DOI:10.1080/10426507.2022.2035385