DE1155431B - Process for the production of phosphorus compounds - Google Patents

Description

GERMAN

PATENT OFFICE

F 33599 IVb / 12 ο

REGISTRATION DAY; 5. A P R I L 1961

NOTICE THE REGISTRATION ANDOUTPUTE EDITORIAL: OCTOBER 10, 1963

The invention relates to a process for the production of novel phosphorus compounds general formula I.

X '

X "- C - X O (S) O

N CS ₇₁ -P

Xi "-CX ₁ Xi '

-Ri
R ₂

in which η is 0 or 1, X, X ', X ", X ₁ , X ₁ ', X ₁ " represent halogen or the group

(SO
S _n P

Ri

R ₂

Process for the production of
Phosphorus compounds

Applicant:

Paint factories Bayer Aktiengesellschaft,
Leverkusen

Dr. Hugo Malz, Leverkusen,

Dr. Günter Oertel, Cologne-Flittard,

and Dr. Hans Holtschmit, Cologne-Stammheim,

have been named as inventors

however, X, X ', Xi, Xi' also stand for H can stand and Ri, R2 are the same or different, possibly substituted hydrocarbon radicals, which also have O, S or N atoms with the phosphorus atom can be connected, should be.

This new class of compounds is produced in a manner known per se by either Phosphorus compounds containing thiol groups with carbamic acid chlorides of the general formula II

Y '
Y "- C - YO

N C-Cl II

Yi "-C-Yi

Yi '

in which Y, Y ', Y ", Yi, Yi', Yi" for halogen or

Ri

Should be hydrogen and at least one halogen atom per methyl group or phosphorus compounds capable of the Arbuzov reaction with these carbamic acid chlorides implemented.

As such compounds, in the sense of Kosolapoff's remarks, “Organo phosphorus compounds ", 1950, pp. 121 to 122 (Chapter 7, Section IA), all those derivatives of the trivalent Phosphorus are understood to have an ester group —OR3 (R3 = organic radical) in the Molecule included.

When using molar amounts of phosphorus compounds and carbamic acid chlorides the reaction takes the following course:

A. II + Me-S-P

■ Y "

-C-Y'O

Ri

(S) OR ₂

C-S-

+ MeCl

III

Yi "-C-Yi

Yi '
Me = alkali metal equivalent or NH4

R ₂

309 727/297

(S)
B. ΙΓ + R —Ο —Ρ

Ri

R = an optionally chlorine-substituted lower alkyl radical.

It is also possible to use the amount of phosphorus compounds used compared to the Carbamic acid chlorides above the molar ratio of 1: 1 given in equations A and B enlarge. In this case, the two methyl groups of the carbamic acid chloride are also successful (II) standing halogen atoms with the abovementioned phosphorus compounds to react bring. This gives compounds of the general formula I, where the symbols X, X ', X ", Xi, Xi ', Xi "for residues of the general formula

(SO
-S _n -P

/
V.

Ri

corresponding to the amount of phosphorus compounds used in a molar ratio of 1: 1. It has already been proposed that the carbamic acid chlorides to be used in this reaction (II) according to the procedure of the German patent application F 33106 IVb / 12o (German Auslegeschrift 1 132 118). However, they are also obtained by halogenation of corresponding dialkylcarbamic acid chlorides accessible by known methods. Since they are very reactive connections, it is recommended that the production of novel phosphorus compounds described here be carried out in the presence inert solvent or diluent. In particular, they have proven themselves Hydrocarbons, ethers or ketones. The reactivity of the halogen atoms in the carbamic acid chlorides (II) is different in that the first chlorine atom attached to the carbonyl group - usually very vigorously - reacts before the halogen atoms on the methyl groups are exchanged will. It is therefore generally advantageous to use the first, which is usually strongly exothermic To moderate the stage of the reaction by appropriate cooling. Since the exchange of the Halogen atoms, also known as methyl groups, runs slowly, it is in the cases in which to whom such a reaction is at all desirable, it is advisable to reduce the reaction rate of this second Level by increasing the temperature accordingly.

The compounds fall either in the form of colorless to slightly brown-colored, not undecomposed distillable oils or in the form of crystals. They are primarily intended to be used as pesticides Find.

Compared to the compounds of similar construction known from German Patent 1,096,617 the process products are characterized by a significantly better effect when used against a range of insect pests. This unexpected technical superiority comes from the im the following results from comparative tests, which are compiled in a table:

Comparative experiments

(according to the invention) (according to the invention) Application against Active ingredient Killing the pests 24 hours η% after O CH ₂ Cl concentration i 98 48 hours Il / To fly in% (C ₂ H ₅ O) ₂ PSCN (Drosophila) 0.1 90 S CCl ₃ If \ Aphids (My- Il / O CH ₂ Cl to persicae) O ₃ I. (C ₂ H ₅ O) ₂ P-S-C-N Spider mites 100 Il \ (Tetranychus
telarius) 0.1 (ovidice effect) O CHCl ₂ To fly 100 Aphids 100 Spider mites 0.1 0.1 100 0.1 (ovicidal effect)

Application against

Active ingredient concentration
in ° / o

Killing the pests

in ° / o after 24 hours 48 hours

f »

[(C ₂ H ₅ O) ₂ P - S - CH ₂ -

- ₂ N - C

Il

Q 1

S - P (OC ₂ Hs) ₂
(according to the invention)
(CHa) ₂ CHO S

PS-CH ₂ -CH ₂ -SC-NH ₂
(CHa) ₂ CHO O

(known from

German interpretation document 1 096 671)

To fly

Aphids spider mites

To fly

Aphids

Spider mites 0.1
0.01

0.1
0.01
0.1
0.01

0.1
0.1
0.1

100
100

100
50

100 60 (ovicidal effect)

0 0

30th

an ovicidal effect)

example 1

(Cl - CHa) ₂ N - C - S - P (OC ₂ Hs) ₂

O S

In a solution of 17.65 g of bis-chloromethylcarbamic acid chloride in 100 ml of acetone, a solution of 22.4 g of 0.0-diethylthioltionophosphoric acid potassium in 100 ml of acetone is added dropwise with stirring. In an exothermic reaction, the initially clear solution soon becomes cloudy with the separation of KCl. It is left for about ¹ hour at about 30 ^ ⁰ C. for and then sucks the deposited KCl on the suction filter. The light yellow filtrate is evaporated in vacuo. The oily product that remains is taken up in ether and washed twice with water. After drying over sodium sulfate, the solvent is evaporated off and 31 g of a pale yellow clear oil which cannot be distilled without decomposition are obtained.

C ₇ Hi ₄ O ₃ NPS ₂ Cl ₂ :
Calculated

C 25.8, H 4.3, N 4.3, P 9.5, S 19.6, Cl 21.8%;
found

C 26.0, H 4.4, N 4.5, P 9.3, S 19.1, Cl 21.8%.

Example 2
(C ₂ H ₅ O) ₂ PS-CH ₂ -In-CSP (OC ₂ Hs) ₂

SJ ₂ OS

A solution of 8.8 g of bis-chloromethylcarbamic acid chloride in 50 ml of acetone is added dropwise with stirring to a solution of 33.6 g of potassium 0,0-diethylthiolthionophosphoric acid in 150 ml of acetone. After decay of the initially strongly exothermic reaction is heated with stirring for about ¹ hour Ii to boiling and then the precipitated KCl filtered off with suction at room temperature. The light yellow filtrate is evaporated in vacuo, whereupon the oily residue is taken up in ether and washed twice with water. After drying over sodium sulfate and evaporation of the ether, 29 g of a light yellow oil are obtained.

Ci ₅ H ₃₄ O ₇ NP ₃ S ₆ :

Calculated

C 28.8, H 5.5, N 2.2, P 14.9, S 30.7%; found
C 29.0, H 5.6, N 2.5, P 14.6, S 29.8%.

Example 3 (ClCHa) ₂ N - C - S - P (OCH ₃ ) ₂

O S

In the manner described in Example 1, equimolar amounts of bis-chloromethylcarbamic acid chloride and potassium 0,0-dimethylthiolthionophosphoric acid are reacted in acetone as solvent and a yellow oil which cannot be distilled without decomposition is obtained in over 90% yield.
C ₅ HIoO ₃ NPS ₂ CI ₂ :

Calculated ... N 4.7, P 10.4, S 21.5, Cl 23.8%; found ... N 4.8, P 11.0, S 21.8, Cl 22.6%.

Cl ₂ CH

Cl ₃ C

Example 4

NCSP (OC ₂ Hs) ₂ OS

In 28 g of one obtained by chlorinating bis-chloromethylcarbamic acid chloride manufactured pentachlor

dimethylcarbamidsäurechlorids from bp 12 100 to 105 ° C - dissolved in 150 ml of acetone - a solution of 22.4 g of Ο, Ο-diethylthiolthionophosphorsaurem potassium in 100 ml of acetone is added dropwise with stirring. In a strong exothermic reaction, the initially clear solution turns yellow with the separation of KCl. The mixture is then heated to boiling for a short time (10 minutes) and the KCl which has separated out is filtered off with suction at room temperature. Evaporation in vacuo leaves a greasy residue which is taken up in warm ether. When the ether solution is cooled with CO2, colorless crystals precipitate. After suction these crystals are dried on clay. This gives colorless, pale pink shimmering crystals with a melting point of 102 ^° C. Yield about 70% of theory.
C ₇ HIiO ₃ NPS ₂ CI ₅ :

Calculated

C 19.6, H 2.6, N 3.3, P 7.2, S 14.9, Cl 41.3%;

found
C 19.7, H 2.6, N 3.5, P 7.5, S 15.1, Cl 41.2%.

Example 5

KC ₂ H ₅ O) ₂ PS-CH ₂ -

NCSP (OC ₂ Hs) ₂

In a solution of 28.1 g of 0,0-diethylthiolphosphorsaurem Ammonium in 150 ml of acetone is allowed to stir a solution of 8.8 g of bis-chloromethylcarbamic acid chloride Drip in 50 ml of acetone and works after heating to boiling for about an hour - as described in example 2 - on. A clear golden yellow is obtained in about 85% yield Oil.

Ci ₅ H ₃₄ OiONP ₃ S ₃ :
Calculated

C 31.2, H 5.9, N 2.4, P 16.2, S 16.7%; found
C 30.9, H 5.9, N 2.6, P 15.9, S 15.9%.

C1CH2

C1CH2

Example 6 O

Il

N - CO- P (- OCHa) ₂

35.5 parts of di (chloromethyl) -carbamidsäurechlorid 24.8 parts of trimethyl phosphite are added dropwise at 30 to 40 ⁰ C under cooling. A vigorous reaction takes place with elimination of methyl chloride. After the heat development has subsided, the reaction mixture is heated ^{to 50 °} C. for 30 minutes and then to 100 ^{° C. for 15 minutes.} By briefly applying a vacuum at 100 ^° C., volatile constituents are distilled off from the reaction product. 48 parts (96% of theory) of the desired ester remain in the residue in the form of a yellow oil which cannot be distilled without disintegration.

Analysis (molecular weight 250):

Calculated ... C 24.0, H 4.0, 'N 5.6, P 12.4%; Found ... C 23.8, H 3.99, N 5.9, P 11.4%.

Example 7

ClCH ₂ O

N - CO - P (- OC ₂ H5> 2

CICH2

17.7 parts of DHchloromethyl O-carbamic acid chloride are reacted in the manner described in Example 6 with 16.6 parts of triethyl phosphite. The reaction product is a clear, light yellow oil and is obtained in theoretical yield (27.8 parts).

Analysis (molecular weight 278):

Calculated ... C 30.2, H 5.0, N 5.0, P 11.3%; Found ... C 30.9, H 4.97, N 5.5, P 10.5%.

Example 8 CICH2 O

\ Il

N - CO - P (- OCH ₂ CH ₂ Cl) ₂ ClCH ₂

To 17.7 parts of di (chloromethyl) -carbamidsäurechlorid be at 6O ⁰ C, 27 parts of tri (chloroethyl) phosphite dropwise. After the exothermic reaction, the mixture is heated for 2 hours at 9O ⁰ C. The dichloroethane formed as a by-product is subsequently distilled off at 100 ⁰ C in vacuo. 34.5 parts of the desired ester remain in the residue in the form of a pale yellow oil.

40

Example 9

45

(C ₂ H ₅ OJ ₂ P-CH ₂ O

N - CO - P (- OC ₂ Hs) ₂ (C ₂ H ₅ O-) _{2 P -CH 2}
O

17.7 parts of di (chloromethyl) -carbamidsäurechlorid triethyl phosphite are mixed at 6O ⁰ C under cooling with 70 parts. The mixture is heated to 100 ⁰ C by the exothermic reaction until no more ethyl chloride escapes. Thereafter, the excess triethyl phosphite is distilled off ^{at 100 ° C. in vacuo.} 48 parts (100% of theory) of the desired ester remain in the residue in the form of a colorless oil.

Claims (1)

PATENT CLAIM: Process for the preparation of phosphorus compounds, characterized in that one for the preparation of phosphorus compounds of the all- common formula
X ' X "- C - X O (SO Il CS _n P Ri R ₂ Xl ' in which η is O or 1, X, X ', X ", Xi, Xi', for halogen or the group (SO Ri R ₂ 'X, X', Xi, Xi 'also stand for H can stand and Ri, Ra same or different, possibly substituted hydrocarbon radicals, which also have O, S or N atoms with can be connected to the phosphorus atom, should be halogenated in a manner known per se Dimethylcarbamic acid chlorides of the general formula YO
C-Cl Y ' Y "- C - N Yi "-C-Yi Yi ' in which Y, Y ', Y ", Yi, Y ₁ ', Yi" have the meaning given, with phosphorus compounds of the general formulas (S) O _{/ Rl / Rl} Me-S —P or R —Ο —Ρ R ₂ in which Ri and R2 have the meaning given above Me is an alkali metal ion or the ammonium group and R is an optionally represents chlorine-substituted lower alkyl radical, converts. Documents considered: German Auslegeschrift No. 1 096 671. © 309 727/297 10.63