(2‐Vinyltetrazolyl)furoxans as New Potential Energetic Monomers

Высокоэнергетические материалы на основе полиазотных и азот-кислородных гетероциклов являются одним из важнейших и актуальных направлений развития современных междисциплинарных исследований, находящихся на стыке органической и физической химии и материаловедения. В ряду таких гетероциклов весьма интересным строительным блоком для получения новых энергоемких веществ является 1,2,4-оксадиазольный цикл. Однако несмотря на то, что химия 1,2,4-оксадиазолов развивается уже более 100 лет, высокоэнергетические материалы на их основе стали известны сравнительно недавно и на сегодняшний день являются одной из "точек роста" в данной области. В настоящем обзоре систематизированы опубликованные к настоящему времени методы синтеза энергоемких структур ряда 1,2,4-оксадиазола: а также приведены особенности их реакционной способности. В обзоре рассмотрены как соединения на основе моно- и би-1,2,4-оксадиазолов, так и структуры, содержащие в своём составе другие азолы, в частности пиразол, 1,2,5-оксадиазол, 1,3,4-оксадиазол, 1,2,3-триазол, 1,2,4-триазол и тетразол. Для представленных структурно близких серий синтезированных соединений обобщены их физико-химические свойства и рассмотрены факторы, влияющие на тот или иной параметр. Библиография — 123 ссылки.

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The chemistry of heterocycles in the 21st century

Charushin,

Verbitskiy,

Chupakhin

et al. 2024

RUSS CHEM REV

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The chemistry of heterocyclic compounds has traditionally been and remains a bright area of chemical science in Russia. This is due to the fact that many heterocycles find the widest application. These compounds are the key structural fragments of most drugs, plant protection agents. Many natural compounds are also derivatives of heterocycles. At present, more than half of the hundreds of millions of known chemical compounds are heterocycles. This collective review is devoted to the achievements of Russian chemists in this field over the last 15–20 years. The review presents the achievements of leading heterocyclists representing both RAS institutes and university science. It is worth noting the wide scope of the review, both in terms of the geography of author teams, covering the whole of our large country, and in terms of the diversity of research areas. Practically all major types of heterocycles are represented in the review. The special attention is focused on the practical applications of heterocycles in the design of new drugs and biologically active compounds, high-energy molecules, materials for organic electronics and photovoltaics, new ligands for coordination chemistry, and many other rapidly developing areas. These practical advances would not be possible without the development of new fundamental transformations in heterocyclic chemistry.<br> Bibliography — 2237 references.

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(2‐Vinyltetrazolyl)furoxans as New Potential Energetic Monomers

Cited by 3 publications

References 67 publications

Current trends in organic chemistry: contribution of the N. D. Zelinsky Institute of Organic Chemistry of the Russian Academy of Sciences

Current trends in organic chemistry: contribution of the N. D. Zelinsky Institute of Organic Chemistry of the Russian Academy of Sciences

Energetic 1,2,4-oxadiazoles: synthesis and properties

The chemistry of heterocycles in the 21st century

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