Английская Википедия:Atrane

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Версия от 00:41, 4 февраля 2024; EducationBot (обсуждение | вклад) (Новая страница: «{{Английская Википедия/Панель перехода}} right '''Atranes''' are a class of tricyclic molecules with three five-membered rings. It is a heterocyclic structure similar to the propellanes. It has a transannular dative bond from a nitrogen at one bridgehead to a Lewis acidic atom such as silicon or boron at the other bridgehead.<ref name=Voro>Voronkov, Mikh...»)
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Файл:Atrane.svg

Atranes are a class of tricyclic molecules with three five-membered rings. It is a heterocyclic structure similar to the propellanes. It has a transannular dative bond from a nitrogen at one bridgehead to a Lewis acidic atom such as silicon or boron at the other bridgehead.[1] The name "atrane" was first proposed by Шаблон:Ill.[1]

Nomenclature

Файл:Allyl-silatrane-from-xtal-3D-balls.png
Ball-and-stick model of the allyl silatrane molecule

Various atranes are named depending on the central element, e.g. "silatrane" (E = silicon); "boratrane" (E = boron); "phosphatrane" (E = phosphorus), etc. It is also proposed that when Y = nitrogen, the prefix "aza" be inserted before element + "atrane" (azasilatrane, for example) because atranes wherein E = silicon and Y = oxygen have been referred to as just "silatranes".[2] Шаблон:Clear-left

Structure and properties

Файл:Atranes.svg
From left to right: atrane, quasiatrane and proatrane

Silatranes exhibit unusual properties as well as biological activity in which the coordination of nitrogen to silane plays an important role. Some derivatives such as phenylsilatrane are highly toxic.

The transannular coordinate bond in atranes can be stretched (quasiatranes) and even broken (proatranes,) by controlling their stereoelectronic properties. The strength of the transannular interaction depends on the electronegativity of the participating atoms and the size of the rings.

Файл:VerkadeProtn.svg
Protonation of Verkade base gives an atrane.[3]

Proazaphosphatrane is a very strong non-ionic base and is utilized in various types of organic synthesis as an efficient catalyst.

Файл:PetersFeN2-attrane.svg
Fe(0)-N2 complex based on atrane framework.[4]

See also

References

  1. 1,0 1,1 Voronkov, Mikhail G.; Baryshok, Viktor P. "Atranes - a new generation of biologically active substances" (in Russian) Vestnik Rossiiskoi Akademii Nauk 2010, volume 80, 985-992.
  2. Шаблон:Cite journal
  3. Шаблон:Cite book
  4. Шаблон:Cite journal

Шаблон:Commons category

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