DE3535033C2 - - Google Patents

Description

The invention relates to substituted Fulvalenes of the general formula

where X is from S or Se, R and R ′ Are groups which are independently of one another from (R ′ ′) ₃Si and H are selected, where R '' is an alkyl with 1 is up to 12 carbon atoms and not more than one of R and R′H is. The invention further relates to a process for the preparation of this compound, wherein Carbon disulfide or carbon diselenide with the acetylenic compound R-C≡C-R 'under Converts pressure at temperatures from 60 to 130 ° C, wherein R and R 'have the meaning given above have.

In the above formula, the R '' groups are typically the same, being branched and can be straight chain. Typical examples are: Methyl, ethyl, n-propyl, n-butyl, n-pentyl, n-hexyl, n-heptyl, n-octyl, n-nonyl, n-decyl, n-dodecyl, isopropyl, Isobutyl, sec-butyl, tert-butyl, isopentyl-amyl and tert-pentyl. In the method according to the invention a pressure of at least 1013, but preferably of at least 5065 bar applied. At one temperature of less than 60 ° C the reaction becomes too slow, while decomposition at a temperature above 130 ° C entry.

The following examples are more illustrative Embodiments of the invention. All parts and percentages in  the examples and elsewhere in the description relate to weight if not stated otherwise.

Examples Example 1 Synthesis of tetrakis (trimethylsilyl) tetrathiafulvalene

A starting mixture was prepared in which 0.5 g (3.6 mmol) bis (trimethylsilyl) acetylene in 2.2 g (30 mmol) Carbon sulfide were dissolved. A Teflon pressure reactor with A capacity of 3 ml was with the starting mixture filled, with practically no free space above of the reaction mixture was present. There was pressure on the Content of the reaction vessel of 5572 bar ± 203 bar applied and maintained for 12 hours during one Temperature of about 120 to 125 ° C was maintained. The vessel was brought to room temperature in about 2 hours let cool. The vessel was opened and contained a dark brown solution. The excess Carbon disulfide was removed under reduced pressure, and the residue was dissolved in hexane.

The reaction products were by column chromatography separated by florisil silica gel  was used, eluting with hexane. The eluted solution was orange and contained tetrathiafulvalene. Other dark by-products remained in the Pillar back. The tetrathiafulvalene product was by Recrystallized from hexane, and it became a obtained orange crystalline material.

The melting point of the cleaned material was 227 to 229 ° C. The compound was called tetrakis (trimethylsilyl) tetrathiafulvalen identified, doing the following possesses analytical data:

Found: C 43.69; H 7.31; S 26.65.
Calculated for C₁₈H₃₆S₄Si₄: C 43.84; H 7.36; S 26.00.
IR peaks: 2920, 1460, 1380, 1230, 925, 850, 820, 740 cm ^-1 .
NMR: δ 0.25 ppm (S).
Mass spectrum: m / e 492.

The yield of the reaction was 57%.

Example 2

A high pressure reaction of 0.7 g bis (trimethylsilyl) acetylene (5 mmol) and 0.7 g carbon disulfide (9 mmol) in hexane (1.5 ml) under a pressure of 5572 bar ± 203 bar at 120 ° C for 12 hours according to the general procedure according to Example 1. A dark brown solution was obtained, whereby the product was isolated in a yield of 65%.  

Example 3 Synthesis of tetrakis (trimethylsilyl) tetraselenafulvalene

A starting mixture was prepared in which 1.0 g (6th mmol) bis (trimethylsilyl) acetylene and carbon diselenide 1.0 g (6 mmol) were dissolved in 3 ml of hexane. The solution was at 60 ° C for 18 hours a pressure of 6078 bar exposed according to the procedure of Example 1. After the reaction mixture cooled to room temperature the capsule was opened and a brown one inside insoluble solid and a dark brown solution found. The solid material was removed from the solution Filter isolated and washed with hexane.

The solution was subjected to a chromatographic analysis Subjected to silica gel using hexane as eluent. After removing the hexane, it turned dark red Solid, 0.45 g, obtained. The solid became hexane recrystallized, with a red prismatic crystalline Material was received. The melt of the cleaned Product was 104 to 105 ° C. The connection was made as Tetrakis (trimethylsilyl) tetraselenafulvalene by the following analytical data identified:

Found: C 32.50; H 5.35; Se 48.20.
Calculated for C₁₈H₃₆Se₄Si₄: C 32.34; H 5.39; Se 47.90.
IR peaks: 2950, 2890, 1710, 1660, 1480, 1450, 1250, 900, 850, 750 cm ^-1 .
NMR: δ 0.25 ppm (S).
Mass spectrum: m / e 680 (basis ⁸⁰Se).

Example 4 Synthesis of bis (trimethylsilyl) tetrathiafulvalene

There was a high pressure reaction of trimethylsilylacetylene (0.5 g; 5 mmol) and carbon disulfide (0.5 g; 6.5 mmol) in hexane (2.0 ml) under a pressure of 5572 bar ± 203 bar at 110 to 130 ° C about 12 hours according to the general procedure of Example 1 performed. It a dark brown solution was obtained and a solid one Product isolated in a yield of 10 to 15%.

The melting point of the cleaned material was 131 to 133 ° C. The compound was described as bis (trimethylsilyl) tetrathiafulvalene by the following analytical data identified:

Found: C 41.45; H 6.00; S 36.60.
Calculated for C₁₂H₂₀S₄Si₂: C 41.32; H 5.78; S 36.77; Si 16.10.
IR peaks: 2940, 1500, 1400, 930, 830 and 740 cm ^-1 .

The compounds according to the invention are valuable intermediates for the production of tetraselenafulvalene, deuterated Tetraselenafulvalene and bis (trimethylsilyl) tetrathiafulvalene. The latter compounds can be inorganic Anions complex like PF and AsF₆ to form crystalline charge transfer salts. These salts are known as "organic metals" and are used in Solid state and physical electronic applications used where high purity is required.

Claims (5)

1. Substituted fulvalenes of the general formula wherein X, S or Se, R and R 'are independently selected from (R'') ₃Si and H, wherein R''is an alkyl of 1 to 12 carbon atoms and is no more than one of R and R'H . 2. Connection according to claim 1, characterized in that R''CH₃ is. 3. Connection according to claim 2, characterized in that X is S and is one of R and R'H. 4. Process for the preparation of the compound of claims 1 to 3, characterized in that you have carbon disulfide or carbon diselenide with the acetylenic compound R-C≡C-R 'under a pressure of at least 1013 bar and at temperatures of 60 to 130 ° C, wherein R and R 'the specified in claim 1 To have meaning.   5. The method according to claim 4, characterized in that the pressure is at least 5065 bar.