RU2163908C2 - Method of preparing 1-alkoxy-2- (trialkylsilyl)alumacyclopropanes - Google Patents

Abstract

FIELD: catalytic complex components, organometallic and fine organic synthesis. SUBSTANCE: method comprises reacting trialkylvinyl silanes with aloxyalkuminium dichloride and metallic magnesium in argon atmosphere, under normal conditions, in tetrahedron furan solvent for 8-12 hours. Yield of the desired products is 51-69 %. EFFECT: more efficient preparation method. 15 ex, 1 tbl

Description

где R = Et, Buⁿ; R' = Et, Prⁿ, Amⁱ.The invention relates to methods for producing new silicon-containing organoaluminum compounds, specifically to a method for producing 1-alkoxy-2- (trialkylsilyl) aluminacyclopropanes of the general formula (1):

where R = Et, Bu ⁿ ; R '= Et, Pr ⁿ , Am ⁱ .

 The obtained compounds can be used as components of catalytic complexes in the polymerization and oligomerization of olefin and diene hydrocarbons, as well as in organometallic and fine organic synthesis, in particular in regioselective synthesis of silicon-substituted 1,2-ethanediols.

Известный способ не позволяет получать кремнийсодержащие алюмациклопропаны (1).The known method [E. Negichi, F. Luo, CLRand. Tetrahedron Lett., 23, N 1, 1982, p. 27-30] obtaining silicon-containing organoaluminum compounds by the interaction of trimethylpropargyl silane with trimethylaluminum (Me ₃ Al) in the presence of a Cp ₂ ZrCl ₂ catalyst at room temperature for 2 hours according to the scheme:

The known method does not allow to obtain silicon-containing aluminacyclopropanes (1).

По известному способу в ходе реакции образуются исключительно региоизомерные метиленциклопентаны, содержащие атомы Si и Al при двойной связи. Известный способ не позволяет получать кремнийсодержащие алюмациклопропаны (1).The known method [JAMiller, E. Negichi. Israel J. Chem. 1984, 24, 76] the preparation of Al- and Si-containing methylenecyclopentanes by the interaction of silicon-containing enins with Bu ₃ ⁱ Al in the presence of a Cp ₂ ZrCl ₂ catalyst according to the scheme:

According to the known method, exclusively regioisomeric methylene cyclopentanes containing Si and Al atoms at double bond are formed during the reaction. The known method does not allow to obtain silicon-containing aluminacyclopropanes (1).

 Thus, in the literature there is no information on the regioselective synthesis of 1-alkoxy-2- (trialkylsilyl) aluminacyclopropanes (1).

 A method for the regioselective synthesis of 1-alkoxy-2- (trialkylsilyl) aluminacyclopropanes (1) is proposed.

где R¹ = Et, Prⁿ, Buⁿ, Amⁱ, с алкоксиалюминийдихлоридами (RO-AlCl₂), где R = Et, Buⁿ, и металлическим магнием (порошок), взятых в мольном соотношении

RO-AlCl₂ : Mg = 10:(10-18):(10-14), преимущественно 10: 14:12, в присутствии катализатора титаноцендихлорида (Cp₂TiCl₂) в количестве 3-6 мол. % по отношению к триалкилвинилсилану, предпочтительно, 5 мол.%. Реакцию проводят в атмосфере аргона при комнатной температуре (21-22^oC) и нормальном давлении. Время реакции 8-12 часов, выход целевых продуктов 51-69%. В качестве растворителя необходимо использовать тетрагидрофуран (ТГФ). В алифатических (гексан, гептан), ароматических (бензол, толуол), галогенсодержащих (хлористый метилен, дихлорэтан) растворителях реакция не идет. Реакция протекает по схеме:

R = Et, Buⁿ, R' = Et, Prⁿ, Amⁱ.The essence of the method consists in the interaction of trialkylvinylsilanes of the form

where R ¹ = Et, Pr ⁿ , Bu ⁿ , Am ⁱ , with alkoxyaluminium dichlorides (RO-AlCl ₂ ), where R = Et, Bu ⁿ , and metal magnesium (powder), taken in a molar ratio

RO-AlCl ₂ : Mg = 10: (10-18) :( 10-14), mainly 10: 14:12, in the presence of a catalyst of titanocene dichloride (Cp ₂ TiCl ₂ ) in an amount of 3-6 mol. % with respect to trialkyl vinyl silane, preferably 5 mol%. The reaction is carried out in an argon atmosphere at room temperature (21-22 ^o C) and normal pressure. The reaction time of 8-12 hours, the yield of target products 51-69%. As a solvent, tetrahydrofuran (THF) must be used. In aliphatic (hexane, heptane), aromatic (benzene, toluene), halogen-containing (methylene chloride, dichloroethane) reactions do not proceed. The reaction proceeds according to the scheme:

R = Et, Bu ⁿ , R '= Et, Pr ⁿ , Am ⁱ .

принимающих участие в формировании силилзамещенных алюмациклопропановых фрагментов.The target products (1) are formed only with the participation of alkoxyaluminium dichlorides (RO-AlCl ₂ ), magnesium powder (chlorine ion acceptor) and Cp ₂ TiCl ₂ catalyst. In the presence of other aluminum compounds (e.g. Et ₂ AlCl, Et ₃ Al, Bu ₃ ⁱ Al, i-Bu ₂ AlH, Et (EtO) AlCl) or compounds of other transition metals (e.g. TiCl ₄ , Zr (acac) ₄ , Fr (acac) ₃ , FeCl ₃ , NiCl ₂ , PdCl ₂ , Cp ₂ ZrCl ₂ ) the target products (1) are not formed. A prerequisite for obtaining the target products (1) is the presence of vinylsilanes of the general formula as starting compounds

involved in the formation of silyl substituted aluminacyclopropane fragments.

The reaction in the presence of a catalyst Cp ₂ TiCl ₂ more than 6 mol.% In relation to trialkylvinylsilane does not significantly increase the yield of the target product (1). The use of Cp ₂ TiCl ₂ in the reaction of a catalyst _of less than 3 mol% reduces the yield of 1-alkoxy-2- (trialkylsilyl) aluminacyclopropanes (1), which is associated with a decrease in catalytically active centers in the reaction mass. The experiments were carried out at room temperature (21-22 ^o C). At a higher temperature (for example, 60 ^o C) the content of the seal products increases slightly, at a lower temperature (for example, 0 ^o C) the reaction rate decreases.

уменьшает выход (1).The change in the ratio of the starting reagents in the direction of increasing the content of RO-AlCl ₂ or magnesium relative to trialkyl vinyl silane does not significantly increase the yield of the target products (1). The decrease in the amount of RO-AlCl ₂ or magnesium in relation to

reduces output (1).

 Significant differences of the proposed method.

The proposed method is based on the use of trialkyl vinyl silanes (RO-AlCl ₂ ) and magnesium (chlorine ion acceptor) as starting materials and a Cp ₂ TiCl ₂ catalyst, while the known method uses silicon-containing enin, Bu ₃ ⁱ Al and a Cp ₂ ZrCl catalyst ₂ .

 The proposed method allows to obtain with high regioselectivity individual 1-alkoxy-2- (trialkylsily) aluminacyclopropanes (1), the synthesis of which is not described in the literature.

 The method is illustrated by the following examples.

Example 1. In a 50 ml glass reactor mounted on a magnetic stirrer in an argon atmosphere at a temperature of -0 ^° C., 10 mmol of triethyl vinyl silane in 10 ml of THF, 12 mmol of magnesium powder, 0.5 mmol of titanocene dichloride (Cp ₂ TiCl ₂ ) were added, 14 mmol (EtO) AlCl ₂ in a solution of THF, stirred for 10 hours at room temperature (21-22 ^o C). Individual 1-ethoxy-2- (triethylsilyl) aluminacyclopropane is obtained. The yield of the target product was determined by the product of deuterolysis (61%). During deuterolysis (1), 1,2-dideuteroethyl (triethyl) silane is formed (2).

Спектр ЯМР ¹³C 1,2-дидейтероэтил(триэтил)силана (2) ( δ , м.д.): 7.05 т (J_C-D = 19.2 Гц) (C¹), 2.88 т (J_C-D = 19.2 Гц) (C²), 3.15 т (C³), 7.37 к (C⁴).

¹³ C NMR spectrum of 1,2-dideuteroethyl (triethyl) silane (2) (δ, ppm): 7.05 t (J _CD = 19.2 Hz) (C ¹ ), 2.88 t (J _CD = 19.2 Hz) (C ² ), 3.15 t (C ³ ), 7.37 k (C ⁴ ).

 Other examples confirming the method are given in the table.

All experiments were carried out at room temperature 21-22 ^o C in THF. In aliphatic, aromatic or halogenated solvents, the reaction does not proceed.

Claims (1)

The method of obtaining 1-alkoxy-2- (trialkylsilyl) aluminacyclopropanes of the General formula

where R = Et, Bu ⁿ ;
R '= Et, Pr ⁿ , Am,
characterized in that the trialkyl vinyl silanes of the general formula

where R 'is described above,
subjected to interaction with alkoxyaluminium dichloride (RO - AlCl ₂ ), where R is described above, and metal magnesium, taken in a molar ratio

equal to 10: (10 - 18): (10 - 14), respectively, in the presence of a catalyst titanocene dichloride (Cp ₂ TiCl ₂ ), taken in an amount of 3 to 6 mol. % with respect to trialkyl vinyl silane, and the reaction is carried out in an argon atmosphere in tetrahydrofuran medium under normal conditions for 8 to 12 hours

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