专利摘要:
N-phenylpyrazole derivatives of formula: <IMAGE> (wherein R<12> represents a chlorine atom, R<13> represents a hydrogen, fluorine or chlorine atom, R<14> represents a hydrogen or fluorine atom and R<15> represents a hydrogen, fluorine or chlorine atom, with the proviso that when R<14> represents a fluorine atom, R<15> represents a fluorine or chlorine atom, or R<12>, R<13> and R<15> each represent a fluorine atom and R<14> represents a hydrogen or fluorine atom) possess useful herbicidal properties. Herbicidal compositions, method for controlling the growth of weeds and processes for the preparation of the N-phenylpyrazole derivatives are described, as well as intermediates of formula:
公开号:SU1422997A3
申请号:SU843814606
申请日:1984-11-23
公开日:1988-09-07
发明作者:Рой Хаттон Лессли;Вилльям Парнелль Эдгар;Алан Робертс Дэвид
申请人:Мэй Энд Бейкер Лимитед (Фирма);
IPC主号:
专利说明:

 The invention relates to a method: the preparation of new derivatives of N-phenylpyrazole of the general formula
NCv5
(I)
 where R and Ri are chlorine;
R and RJ are hydrogen;
OR
: STI
:OR
R, is chlorine RJ 4 hydrogen;
i
R (- R4 - fluorine; i
R (, R, R4 is chlorine; Rj is hydrogen.
{which exhibit herbicidal activity - (and can be used in - (agriculture).
 The purpose of the invention is to enhance the herbicide activity in a series of i-phenylpyrazole derivatives.
Example. Ethoxymethylene malonitrile (1.84 g) and 2,6-dichloro-4-trifluorome-thylphenylhydrazine (3.7 g) are added to a solution of sodium acetate (0.6 g and glacial acetic acid (15 ml), and stirred After stirring for 15 minutes, a colorless solid precipitated out of the clear brown solution and stirring continued for another 15 minutes. The mixture was filtered. The obtained solid was washed successively with acetic acid, water, aqueous sodium bicarbonate and water, as a result, get 2; 6-dichloro-4-trifluorum Ethylphenylhydrazinomethylenemalono nitrile (3.4 g), mp 150-154 ° Cs in vk, 7, e, colorless crystals.
The resulting 2,6-dichloro-4-trifluoro methylphenyl hydrazinomethylenemal ononitrile is heated at the boiling point of ethoxyethanol (15 ml) for 45 minutes. The hot solution is filtered, the filtrate is cooled, diluted with water (5 ml) and filtered, get 5-amins4-cyan6-1- (2,6-dichloro-4-trifluorometaphenyl) pyrazl (2.5 g), mp 165-16 C, in the form of off-white crystals,
Similarly receive 5-amino-1- (2 chloro-4-trifluoromethylphenyl) -4 - cyanopy
0
five
0
five
0
five
0
five
0
five
Razol, so pl. 185-187 ° C, after crystallization from toluene, in the form of yellowish-brown crystals, from 2-chloro-A-trifluoromethylphenylhydrazine using 2-chloro-4-tr, iffluoromethylphenylhydrazinemethylenemalononitrile, obtained in the form of a brown powder, mp. 138-143 ° C.
5-amino-4-cyano-1- (2,3,5,6-tetrafluoro-4-trifluoromethylphenyl) -pyrazole, m.p. 122-122.5 C after crystallization from toluene, in the form of not-quite-white crystals, and 5 are recovered from 2,3,5, 6-tetrafluoro-4-trifluoromethylphenylhydrazine through 2,3,5,6-tetrafluorofensh1-4 trifluoromethylphenylhydrazinometh1 ° en - malononitrile, so pl. 90-93 C, in the form of a grayish-yellow TV; rdoy substances.
Example 2. 2,3,6-Trichloro-4-trifluoromethylphenylhydrazine (10.1 g) is added in one portion to a solution of ethoxymethylenemalononitrile (4.40 g) and anhydrous sodium acetate (1.47 g) in ice-cold acetic acid, (34 ml) -, stirred at room temperature. Within 5 minutes, a fine-grained precipitate is formed and stirring is continued for 2 hours. Then the reaction mixture is held overnight at room temperature and filtered.
The solid precipitate is washed successively with a small amount of glacial acetic acid, a saturated sodium bicarbonate aqueous solution and water, resulting in 2.3, b-trichloro-4-tris-methylmethylphenylgene-razinemethylenemalononitrile (9.6 g), m.p. C, in the form of a yellowish brown powder,
The resulting 2,3,6-trichloro-4-trifluoromethylphenylhydne shnomethylenemalon- nitrile is heated at the temperature of ethoxyethanol (50 ml) for 1 h. The solution is filtered, the filtrate is cooled, diluted with water (70 ml), solid The precipitate is recovered by filtration; 5-amino-4-cyano-1- (2,3,6-trichloro-4-trnfluoromethylphenyl) pyrazole (6.36 g) is obtained, m.p. 186-187 Cj after crystallization from toluene (25 ml) in the form of a dark yellow crystalline solid.
Froze Fe: nilhydro.zin ;, which are used: as starting materials in examples 1 and 2, are obtained in the following way: 2,6-diasor-4-trifluoromethylphenipanthine
(4.3 g) is dissolved with stirring in glacial acetic acid (23 ml), then a solution of sodium nitrite (1.5 g) in condensed sulfuric acid (11 ml) is added at 55-60 ° C. The irradiated solution is cooled to 0–5 ° C and a solution of divalent tin chloride (16.4 g) in concentrated hydrochloric acid (14 ml) is added to it with vigorous stirring. A creamy colored precipitate falls out. The mixture is filtered, the resulting solid is added to a mixture of aqueous ammonia and ice. The resulting mixture is extracted with diethyl ether (6 x 500 ml), the combined extracts are dried over sodium sulfate, filtered, the ether is removed, 2 2-dichloro-4-trifluoromethylphenyl hydrazine (3.7 g) are obtained, mp. 54-56 ° C, in the form of a colorless crystalline solid.
From 2-chloro-4-trifluoromethylaniline, 2-chloro-4-trifluoromethylphenylhydrazine is obtained, m.p. 38-39 ° C, in the form of a colorless solid.
From 2,3,6-trichloro-4-trifluoromethyl-aniline. 2,3,6-trichloro-4-trifluoromethylphenylhydrazine, m.p. 72-74 ° C, in the form of a white solid.
EXAMPLE 4 .2,3,6-Trichloro-4-trifluoromegilaniline, which is used as a starting material, is prepared as follows. A mixture of 3-chloro-4-trifluoromethylaniline (20 g) and 12 ml of hydrochloric acid (, 18 g / cm) is suspended in water (600 ml). Chlorine gas (from 13 ml of liquid chlorine) is fed to the stirred suspension when heated to the refluxing temperature. After the addition of chlorine gas is complete, stirring is continued for another 15 minutes. After cooling, the solution is extracted with dichloromethane (3x250 ml). The combined organic extracts are washed with water, a saturated solution of sodium bicarbonate in water and again with water, dried over anhydrous sodium sulfate and the solvent is removed. The red oil obtained is subjected to distillation (so kip. 143-147 C / / 20 ml Hg), the result is an orange oil, which crystallizes on standing. 2,3,6-trichloro-4-trifluoromethylanine (12.26 g) is obtained, m.p. 37-39 ° C, in the form of an orange solid.
Experiment 1. Methods of testing compounds for herbicidal activity. Weed growth control test.
but. General information. The compounds tested according to examples 1 and 2, namely 5-amino-1- (2-chloro-4-trifluoromethylphenyl) -4-cyanopyrazole (compound 1), 5-mino-4-cyano-1- (2,6 -dichloro-4-trifluoromethylphenyl) pyrazole (compound 2), 5-amino-4-cyano-1- (2,3,6-trichloro-4-trifluoromethylphenyl) pyrazole (compound 3) and 5-aminobutyron 47 Cyano-1- (2,3,5,6-tetrafluoro-4-trifluoromethylphenyl) pyrazole (compound 4), as well as the known compounds with herbicidal activity, 1-phenyl-4-cyano-5-aminopyrazole (CC1) and 5 -amino-4-cyano-1- (2,3,4-trichlorophenyl) -3-methylpyrazole (CC2), dissolved in acetone.
The application is carried out using a standard laboratory sprayer, creating a flat jet with a speed of 2.6 km / h, which is equivalent to injecting 530 liters of sprayed liquid per 1 ha, the pressure of the jet was 2.81 kg / cm. Solutions of the test compounds CC1 and CC2 are obtained by dissolving 0.516 g of the test compound in acetone, then the volume of acetone is adjusted to 34 ml (1.5 wt.%), Which is equivalent to the application rate of 8 kg of the test compound per 1 ha.
From the resulting solution of compound CC2, solutions equivalent to the application rates of 4, 2, 1, 0.5, 0, 25 and 0.125 kg / ha are prepared, this is done using a series of dilutions with acetone. For the CC1 compound, solutions equivalent to the application rates of 8.4, 2.1 and 0.5 kg / ha are prepared.
Solutions of the test compounds 1, 2 and 4 are prepared in the same way, but 0.1228 g of the test compound is used in order to obtain solutions equivalent to the application standards 2; one; 0.5; 0.25; 0.125; 0.0625; 0.0312 and 0.0156 kg / ha. Solutions of the test compound 3 are prepared in a similar manner, but 0.064 g of the test compound is used in order to obtain solutions equivalent to application standards 1; 0.5; 0.25; 0.125; 0.0625; 0.0312 and 0.0156 kg / ha.
b. Weed growth regulation. Processing before the outcome.
Weed seeds are sown on the John Ains compost surface of the following composition, ob: sterilized clay 7; peat 3; h. crushed sand 2, containing in pots of paper, impregnated with bitumen, diameter E, see. Below are the quantities of seeds per pot: i Broadleaved weeds
Sinapis awensis 30-40 Polygonura lapathifoliura 30-40 Stellaria media 30-40 Grass weed i Avena fatua 15-20; Alopecurus myosurdides 30-40 I Echinochloa crus-galli 20-30; The test compounds are applied to openly lying seeds in accordance with the description of compound 1 (a) at the doses indicated in Table 2. ; After thrashing, the seeds are covered with a layer of finely crushed sand with a thickness of 25 ml. One leaf for each seed contains seeds that have not been processed at all, and in the other, only acetone is sprayed onto the seeds. After processing, the pots are kept in a greenhouse and watered on top. Visual assessment of the regulatory effects on the seeds is carried out on the day after treatment. The result is expressed in the minimum effective dose (MED), which results in a 90% reduction in growth or death of the seeds compared to plants grown in control pots. The results are shown in .tab.2.
Century regulation of plant growth. Processing after emergence of shoots. Various types of weeds are grown,
and then they are transported as seedlings to John Ains compost contained in paper pouches impregnated with bitumen 9 cm in diameter, with the exception of Avena fatua, which is grown from seed directly in the pot and therefore not tolerated. Further, the plants grow in the greenhouse until the moment when the processing starts.
eight compounds.
The number of plants in one pot and the stages of plant growth are listed in Table 1.

0 5 o
five
five
five
0
The test compounds are applied to the plants in accordance with the description of compound 1 (a) in the dosages given in table. 21.
One pot for each seed is not treated at all, and the other contains plants that are treated with acetone only. After processing, the pots are poured over water, the first watering is carried out 24 hours after the treatment. Evaluation of the regulatory effect on plants is carried out 19-28 days after the dissolution of the compounds by fixing the number of plants that have either died or significantly delayed growth. Results are expressed in the minimum effective dose (MED), which gives a 90% reduction in growth or causes weed death when compared to plants that are protected in control pots.
The results are shown in table 3.
In Tables 2 and 3, where the herbicidal activity of the obtained compounds is given before and after the emergence of shoots, the following abbreviations of weeds are accepted: Am - Alopelurus myosuroides; Af - Avena fatua; EC - Echinochloa crus-galli; Sm - Stellaria media; PL - Polygonum Lapathifolium; Sa - Sinapis arven; is; At - Abutilon theophrasti.
Experiment 2. Comparison of the activity of compounds 1, 2 and 4 with compound A 5-amino-4-cyano-1- (2,3 j 4-trichlorophenyl) -pyrazole after germination against Galium aparine. Veronica persica and Viola arvensis. All kinds of weeds are grown in John's compost. Ainsa indicated above. At the seed growth stage, the plants are transferred to paper pots impregnated with bitumen with a diameter of 9 cm and their further growth takes place in them.
The number of plants per pot and the stage of plant growth during the application of the exhausted compounds are listed in Table 4o.
The application of the test compounds is carried out from a standard laboratory sprayer of herbicides using a flat jet coming at a rate of 2.6 kg / h, which is equivalent to applying 260 liters of spraying liquid per hectare, the pressure in the jet is 2.1 kg / cm.
Solutions of compounds 1, 2 and 4, and compounds A are prepared by dissolving 0.154 g of the test compound in acetone, followed by adding acetone to a volume of 40 ml, which is equivalent to a dose of 1 kg of the test compound per hectare. Solutions equivalent to 0.5; 0.25; 0.125; 0.0625 and 0.0312 kg / ha are prepared from these solutions using a series of dilutions with acetone.
Three identical pots for each type of weed are used as untreated control plants and a control plant over which only acetone is sprayed. After spraying, the pots are kept in a greenhouse, and watering takes place from the top 2-4 hours after spraying the tested compounds. Weed growth regulation is evaluated 28 days after spraying, and the number of plants that died during the experiment is recorded. The results are averaged over the number of repeated tests and the averaged results express the dose of each test compound resulting in the death of 90% of the plants (kg / ha). The results are shown in table.5.
Experiment 3. Regulation of Gialium aparine growth in winter wheat crops using compounds 1, 2 and A,
Test method Wettable powders were prepared with the following composition, wt.%: I. Compound A 50, Arilan C90 3; sopropone T. 36 1j belloid TD 50; silica-based filler CAC 132 (microscopic silicon dioxide) - the rest | Ii. compound 1 20; nekal BH 10; sodium lignosulfate 3; sopropon T.36 0.5; silica-based filler CAC 132 - the rest; III (C) compound 2 20; nekal BH 10; sodium lignosulfate 3; sopropon T.36 0.5; silica-based filler CAC 132 - the rest.
Arilan C90 is sodium dodecylbene sulfonate; sopropone T.36, sodium polypyrboxydate, belloid TD-sodium naphthalene sulfonate and formaldehyde cocdensate; Nexal BH alkyl naphthalenesulfonate Catr.
Wettable powders are diluted with water and applied in 217.2 l of liquid spray per 1 ha to arable areas of 2.5 2.5 m, containing shoots of winter wheat of the Avalon family, growth stage: height 15.24 cm, five unfolded leaves, main stem plus four shoots,
direct pseudo-stem and Galium aparine, growth stage: height 7.62 cm with - branches and three rosettes up to a height of 20.32 cm with seven to eight shoots using two repeated experiments for each treatment.
Six days after spraying, the effect of growth regulation in percentages of Galium aparine and the damage in percentages caused by
wheat in each treated area compared to untreated control plants. The average effect of growth control in percent and damage in percent are calculated
for each pair of repeated experiments and the results obtained are presented in Table 6 (wheat growth stage at the time of assessment: height 20.32 cm, six main leaves, main stem plus four shoots, each first node).
The above experimental results clearly indicate the valuable herbicidal properties of the compounds of general formula (I), which can be applied in agriculture.
权利要求:
Claims (1)
[1]
Invention Formula
The method of obtaining N-phenylpyrazole derivatives of the general formula
NC.
45
50
where R, and R i - chlorine; RJ is hydrogen
55
R is chlorine; R - R4-
or
R - R4 is fluorine;
or
Kd, K4, K.-chloro; R, is hydrogen, characterized in that they react by reacting compounds of the general formula
NNSh2:
B
1 Where R R4 have the indicated values of their acid additive salts with i compounds of the general formula
NC / OR5
/
NC
 H
;Where
Rj C, -C4-alkyl with a straight or branched chain, in the presence of an alkali metal acetate in an inert organic medium
solvent at room temperature, obtained proi: an aqueous phenylhydroxy formula of the general formulas
NC
NC
X
where R, -, - R have the indicated meanings, is subjected to cyclization in an environment of an inert organic solvent at a temperature from room temperature to the boiling point of the reaction mixture under reflux.
Priority featured
17.07.81 when R, and R4 - chloro; wherein R and RJ are hydrogen; R is chlorine, in this case, hydrogen; R is R4 fluorine;
05.02.82 when Nd, R, and R4 - chlorine, with R hydrogen.
a b and c a 1
Broadleaf weeds Polygonum lapat-hifoliutn 5 1-1-1 / 2 pairs
leaves
Stellaria media 5 4-6 leaves Abutilon theoph- rasti32 pairs
Leaves Grass nisty sorn ki
Avena fatua Alopecurus myo-suroides
Echinochloa crus-galli
ten
1 sheet
5 1-1 / 2 leaves
5 1-2 sheets
Table 2
I
1 2 3
four
0.0312-0.06250.0312-0.0625 0.5-10.25-0.5 0.250.25
0,0156-0,0312 0,0156 0,0625-0,125 0,25-0,5 0,25-0,50,125
0.125-0.25 0.0156-0.0312 0.062S.1.0 0.25-0.50.5
0,0156-0,0312
0,0156
0.25
0.5 0.312-0.0625 0.125
 ; - less, NR - no reduction in growth was observed at any dose.
Gialium arata ine 4 Veronica per sica 2 Viola arvenisis2
1422997
12 Continuation of table 2
0.25
0.5 0.312-0.0625 0.125
Table3
T a b l and c a 4
9 3 - 5 (rings)
4 5 - 6 3 3-4
13
 1422997
T a b l and c a 5
0.5
one
2
90 93 98
Oh, 12570
0.2583
0.593
1100
0.12590
0.2595
0.598
one
98
U
T a b l and c a 6
five
13 18 О О 3 5 О О
at
five
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同族专利:
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引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3760084A|1972-05-01|1973-09-18|American Cyanamid Co|Method of using 5-amino-1-phenyl or substituted phenyl-4-pyrazolecarbonitriles or carbox-amides|
DE3062439D1|1979-08-23|1983-04-28|Fbc Ltd|5-amino-4-cyano-1-pyrazole, process for its preparation, herbicidal compositions containing it and their use|
TR21379A|1980-02-26|1984-05-02|May & Baker Ltd|N-FENILPIRAZOL T REVERS|
EP0053698B1|1980-12-05|1985-01-09|BASF Aktiengesellschaft|5-amino-1-phenylpyrazole-4-carboxylic acids, process for their preparation, herbicides containing them and their use as herbicides|DE3420985A1|1983-10-15|1985-04-25|Bayer Ag, 5090 Leverkusen|SUBSTITUTED 5-ACYLAMINO-1-PHENYLPYRAZOLE|
EP0178035B1|1984-05-12|1990-01-03|FISONS plc|Anti-inflammatory 1,n-diarylpyrazol-3-amines, compositions containing them and processes for their preparation|
DE3423582A1|1984-06-27|1986-01-09|Bayer Ag, 5090 Leverkusen|SUBSTITUTED 5-ACYLAMINO-1-PHENYLPYRAZOLE|
DE3539844A1|1985-11-09|1987-05-14|Bayer Ag|SUBSTITUTED 5-AMINO-1-ARYL-PYRAZOLE|
DE3706993A1|1987-03-05|1988-09-15|Bayer Ag|5-AMINO-3-HALOGENALKYL-1-ARYL-PYRAZOLE|
DE3737986A1|1987-11-09|1989-05-18|Bayer Ag|TRIFLUORMETHYLAMINOBENZOLS CONTAINING FLUOR AND / OR CHLORINE AND THEIR PRODUCTION|
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法律状态:
优先权:
申请号 | 申请日 | 专利标题
GB8122142|1981-07-17|
GB8203369|1982-02-05|
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