BISPHOSPHITES WITH A NAPHTHOL OUTER UNIT

Abstract

Bisphosphites with a naphthol outer unit and the use thereof in hydroformylation.

Claims

1. Compound of formula (I) or (II): ##STR00010## wherein R.sup.1 is (C.sub.1-C.sub.6)-alkyl.

2. Compound according to claim 1, wherein R.sup.1 is CH.sub.3 or Bu.

3. Compound according to claim 1, wherein R.sup.1 is Bu.

4. Compound according to claim 1, wherein the compound is a compound of formula (I).

5. Compound according to claim 1, wherein the compound has the structure (1): ##STR00011##

6. Compound according to claim 1, wherein the compound is a compound of formula (II).

7. Compound according to claim 1, wherein the compound has the structure (2): ##STR00012##

8. Process comprising the process steps of: a) initially charging an olefin; b) adding a compound according to claim 1; c) adding a substance comprising Rh; d) feeding in H.sub.2 and CO; e) heating the reaction mixture from a) to d), with conversion of the olefin to an aldehyde.

9. Process according to claim 8, wherein the substance comprising Rh is selected from: Rh(acac)(CO).sub.2, Rh(acac)(cod)(Umicore, acac=acetylacetonate anion; cod=1,5-cyclooctadiene), Rh.sub.4CO.sub.12.

10. Process according to claim 8, wherein the substance comprising Rh is Rh(acac)(CO).sub.2.

Description

SYNTHESIS

##STR00005##

[0022] 0.076 mol of naphthalene-1,8-diol was dried overnight at 50 C. by means of oil-pump vacuum. The following day, the Schlenk flask was flooded with argon and the naphthalene-1,8-diol was dissolved in 350 ml of dried toluene. In a Schlenk flask which had been repeatedly evacuated and filled with inert gas, 0.114 mol of phosphorus trichloride was dissolved in 120 ml of dried toluene. Subsequently, the naphthalene-1,8-diol solution was slowly and steadily added dropwise at 20 C. to the PCl.sub.3 solution. Thereafter, 0.165 mol of triethylamine was slowly added dropwise at 20 C. to the solution under high stirring speed. The solution was brought to room temperature and stirring was continued overnight. The next day, the reaction mixture was filtered using a frit, the filter cake was washed twice with in each case 25 ml of toluene and the filtrate was concentrated at 40 C. by means of oil-pump vacuum.

Yield: 86%

##STR00006##

[0023] 0.016 mol of biphenol was weighed out, dried overnight by means of oil-pump vacuum and the next morning flooded with argon. The biphenol was dissolved in 40 ml of toluene. Under an inert gas atmosphere, 0.016 mol of chlorophosphite was weighed out, dissolved in 40 ml of toluene and admixed with 0.016 mol of degassed triethylamine. The chlorophosphite-toluene solution was added dropwise at room temperature to the biphenol solution over the course of 1 h and stirring was performed at 40 C. for 24 h. The reaction mixture was filtered using a frit and the filter cake was washed twice with in each case 20 ml of toluene. The filtrate obtained was concentrated and dried at 40 C. under oil-pump vacuum.

Yield: 75%

##STR00007##

[0024] Under an inert gas atmosphere, 11.9 mmol of the monophosphite was weighed out and dissolved in 150 ml of dried toluene and 29.8 mmol of degassed triethylamine. In a Schlenk flask which had been repeatedly evacuated and filled with inert gas, 14.9 mmol of phosphorus trichloride was dissolved in 100 ml of dried toluene and cooled to 0 C. The organochlorophosphite-triethylamine solution was then added at 0 C. to the phosphorus trichloride solution. The reaction mixture was stirred at room temperature for 24 h. The ammonium hydrochloride formed was filtered off using a frit and washed twice with in each case 50 ml of dried toluene. The filtrate obtained was subsequently concentrated to dryness at 45 C. under oil-pump vacuum.

[0025] Yield: 87%

Synthesis (1)

##STR00008##

[0026] Under an inert gas atmosphere, 2.9 mmol of organodichlorophosphite was weighed out and suspended in 30 ml of dried toluene. 6.7 mmol of the naphthol was weighed out in a Schlenk flask and repeated evacuation and filling with inert gas was briefly performed by means of oil-pump vacuum. Subsequently, the Schlenk flask was flooded with argon and the naphthol was dissolved in 20 ml of dried toluene and 14.3 mmol of degassed triethylamine was added. Subsequently, the naphthol solution was slowly and steadily added at room temperature to the chlorophosphite suspension. The reaction solution was stirred at room temperature overnight. The ammonium hydrochloride formed was filtered off using a frit and washed twice with in each case 10 ml of dried toluene. The filtrate obtained was subsequently concentrated to dryness at 40 C. by means of oil-pump vacuum. The dried filtrate was purified by means of column chromatography.

Yield: 81%

[0027] Compounds (2) to (4) and (11a) were prepared analogously to Compound (1). [0028] Compounds (3), (4) and (11a) are non-inventive comparative compounds.

##STR00009##

Catalysis Experiments

[0029] An argon atmosphere is employed. Reaction vessels have been dried beforehand at high temperature (80 C.) and under oil-pump vacuum. Liquid substances were degassed by bubbling in argon for at least 15 minutes. The hydroformylation was carried out in a 0.5 I autoclave from Berghof Products+Instruments GmbH, equipped with a constant-pressure apparatus. The reactor is heated by means of oil bath from IKA. The reactor serves for gas exchange and as a temperature control unit. Five glass vials (20 ml), filled with catalyst solution and magnetic stirrer bars and crimped under argon, were placed inside this reactor such that gas exchange between vials and reactor space is possible. The temperature of the glass vials was controlled by thermal oil present in the reactor. Reaction temperatures specified were measured inside the glass vials. The substrate used was n-octene (Oxeno GmbH, octene isomer mixture of 1-octene: 3%; cis+trans-2-octene: 49%; cis+trans-3-octene: 29%; cis+trans-4-octene: 16%; structurally isomeric octenes: 3%).

[0030] For an experiment run, a stock solution was prepared in advance under an argon atmosphere. For this purpose, 0.0127 g of Rh(acac)(CO).sub.2 and the corresponding amount of phosphite compound (MV Lig: Rh=5:1) were weighed out and made up with 48.0 ml of toluene. Approx. 8 ml of this solution was distributed to each of the vials and the exact amount was weighed. The vials were placed in the reactor and the latter was closed. Purging was performed three times with argon and three times with synthesis gas (Linde; H.sub.2 (99.999%): CO (99.997%)=1:1). On completion of pressure testing, the autoclave was heated to the desired temperature of 120 C. at an overall pressure of 10 bar with stirring (900 rpm). After reaching the reaction temperature, the synthesis gas pressure was increased to 20 bar and 2 ml of the substrate in each case was metered in by means of HPLC pump to start the reaction. This results in an Rh concentration of 100 ppm. 1 h after the start of the reaction at constant pressure, a sample was taken from each vial and analysed undiluted by gas chromatography: HP 6890, Petrocol DH 150, 150 m0.25 mm1 m. Residual olefin and aldehyde were quantitatively determined against the solvent toluene as internal standard. The results listed in the table below are the average over one experiment run.

Results of the Catalysis Experiments

[0031] [Rh]: 100 ppm, p: 20 bar, T: 120 C.; t: 1 h

TABLE-US-00001 TABLE 1 (R.sup.1 = .sup.tBu): Ligand Yield [%] (1)* 56 (2)* 48 *inventive exemplary embodiment

TABLE-US-00002 TABLE 2 (R.sup.1 = OMe): Ligand Yield [%] (3) 36 (4) 28 (IIa) 39

[0032] The experiments carried out demonstrate that the stated object is achieved by a compound according to the invention.