前苏联专利SU955862A3 Frocess for producing amino salts of substituted n-phosphonomethyl ureas

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专利摘要:
Nolvel amine salts of substituted phosphonomethylureas having the formula in which R,R' and R" are independently C1-C4 alkyl; a is 1 or2 and b is2 or3, such thatthe sum of a and b is4; and c is 1 or 2 and d is 0 or 1, such that the sum of c and d is 2. These compounds are useful in regulating the natural growth or development of plants. They may be prepared by reacting the appropriate amine ReNHtb, where b' is 1 or2, with an appropriate phosphonic acid. A rate of application of 0.11 to 22 kg/ ha is suitable. For application the compounds may be formulated with an inert carrier or diluent A preferred compound is the mono(diisopropylamine) salt of N,N-dimethyl- N-carboethoxymethyl-N'-phosphonomethylurea.
公开号:SU955862A3
申请号:SU802879999
申请日:1980-02-01
公开日:1982-08-30
发明作者:Блэкмоур Лардж Джордж；Ламонт Бьюрен Лоренс
申请人:Стауффер Кемикал Компани (Фирма)；
IPC主号:

专利说明:

(54) METHOD FOR MAKING AMINO SALTS OF SUBSTITUTED N-PHOSPHOROMETHYLMOLEVINS
one
This invention relates to the chemistry of organophosphorus compounds, and specifically to a method for obtaining new amine salts of substituted N-phosphonomethylureas with the general formula

four.,
-tf HTJaNHgO
PCiHeNClNRi where R is methyl or ethyl and L. go 2, 2 or 3, and a in 4; c 1 or 2, d o or c + d 2, and) fcJe can be used in agriculture to regulate plant growth. The compounds of general formula (1) and the method for their preparation are new and not described in the literature.
A known method for producing N-phosphonomethylglycine derivatives of the general formula
About 9 /
YO is -dHz-N-c1Hg -F ° Ti-d-oT.
10 dHg o-deH. where y is H, alkali metal or, a is H or alkali metal, R is vinylene, alkylene, C} -C5 isoalkylene, phenylene, nitrophenylene, carboxyphenylene, tolylene, C 4 cycloalkylene, or dicarboxycyclobutylene, cyclohexynylene, ducarboxybene, Zoylphenylene, norrecnylene, norzhornylene, cyclohexynylene, ducarboxyben Zoylphenylene, norlerennylane, norkrennylene, cyclic albumen, which is that the derivative of the sodium salt of K-fbsonomethylglycine of the general formula. Y.O - C1-4Ng -NH-YNg - P where Y - has the indicated value, is reacted with an anhydride with a RIDOM carboxylic acid of the general formula. d- e / where R - has the indicated value in the presence of an alkali metal hydroxide in an aqueous medium at pH 6-10, followed by isolation of the product as a salt 1. The purpose of the invention is to develop an affordable method for preparing compounds of general formula (1). The goal is achieved. According to the method for producing amine salts of substituted N-phonomethylureas with the general formula (1 based on the known reaction of the interaction of an organic halide with trialkylphosphite (2), which concludes that H, S-dialkyl-carboethoxymethylurea is common CigHsoHl-CiHiKI - CiWE rde R - methyl or ethyl is subjected to interaction with an equimolar amount of paraformaldehyde and thionyl chloride in chloroform at a temperature of 15-34С., obtained by combining the general formula O O (i, H50C-.CiHz-NH5NB2 CHzCil where R - has the specified value, by they react with an equimolar amount of trimeroylphosphite at 15–50 ° C, followed by the interaction of the obtained compound of the formula OO II 11 dzHsO H NCKBz C1 HgR- {OC1H3) g where R - has the indicated value, with bromotrimethylsilane at their mole ratio 1 : 2, at 5 ° C in an atmosphere of nitrogen and by treating the resulting product with an excess of amine1 (b of the formula). where a 1 or 2, 2 or 3, with what a + a 4, at 15-28C. Example 1. Getting N, N-dimethyl-N-carboethoxymethyl-N-chloromethylurea. 100 cm3 of chloroform, 45.5 g (0.26 mol) N, K-dimethyl y-carboethoxymethylurea, and 9.0 g (0.3 mol) paraform are loaded into the reaction flask. While the mixture was stirred at room temperature, 35.4 g of a / / 21.4 cm (0.3 mol) of thionyl chloride in a concentrated solution of chloroform was added dropwise. The temperature rises to 34 ° C. Gaseous hydrogen chloride and sulfur dioxide released from the reaction mixture are absorbed by a solution of caustic soda. The product is isolated by evaporation of the solvent, c. formation of 53.4 g of the substance, which is an almost complete conversion. The structure was confirmed by the methods of Poland and mass spectrometry. The refractive index of the product is 1, 4782. PRI mme R 2. Preparation of S, S-dimethyl-s-carboethoxymethyl-s- (0.0 dimethylphosphonomethyl) urea. To the reaction flask was charged 31.9 g (0.14 mol) of K, N-dimethyls of carboethoxymethyl-N-chloromethyl urea and 22.0 g (0.2 mol) of trimethylfrsphite. After a slight increase in temperature, the reaction mixture is stirred for 30 minutes at room temperature, followed by 1 hour at. The product is isolated by evaporation to form a crude substance in the amount of 43.6 g. The above structure is confirmed by PMR and mass spectrometry; refraction coefficient 1.4642. PR and M - er 3. Preparation of the monodiisopropylamine salt of dimethyl carboethoxymethyl phosphonomethylurea, The phosphonate ester obtained in the previous step (5.9 g, 0.20 mol) is placed under nitrogen atmosphere and treated with 6.1 g (0.056 mol) of bromotrimethylsilane at 5 ° C. The resulting mixture is stirred for 1 hour at room temperature and then poured into water. The resulting insoluble oil is separated and weighed (5.4 g). A portion of this product is treated with excess diisopropylamine. The resulting salt has a melting point of 164-165 ° C and, according to C-resonance spectrometry, it is the mono / diisopropylamine salt of N, M-dimethyl-ycaro-15-ethoxymethyl-M-phosphonomethyl urea. Exit 7.4 (100% of theory). ; Dialogic methods are used with the use of monoisopropylamine instead of diisopropylamine in the last stage (Example 1). Monoisopropylamine gives the following disals. Di / monoisopropylamine N, N-dimethyl-N -carboethoxymethyl-P phosphonomethylurea salt, mp 105107 ° C. 7.8 g (100% of theor.) Di / Monoeopropyl inova salt of M, N-diatil-M-car-6-ethoxymethyl-.M phosphonomethylurea, mp 9§ 99 ° C. Yield 8.3 g (67% of theor.). Physical Characteristics. N, N-flHMeTHn-N- carboethoxymethyl N-phosphonomethylurea, (mono-diisoprprylamine salt) - melting point 1b4-165 ° C. S; d-dimethyl-S-carboethoxymethyl N -phosphono lethe urea, (di-monoisopropylamine salt) - 105 ° C. N-diethyl-N-carboxethoxymethyl N-phosphonomethyl urea (di-monoisopropylamine salt) - melting point 95-99 ° C. PRI me R 4. Illustrates. applicability of the three proposed compounds for regulating the growth of sorghum (Sorghum VuSgare). The following compounds are tested: A — Mono / diisopropylamine / N, N-di methyl-N-carboethoxymethyl-phospho-methyl urea salt B — Di / monoisopropyl amine / salt Y, Y – d (methyl-m-carboxy-tomo-methyl-N- phosphonomethyl urea C - Di / monoisopropylamine / salt M, N-diethyl-n-carbostoxymethyl-N-phosphonomethyl urea. Regulation is accomplished by removing the foliage and slowing the vegetative growth of the plant. Removing the foliage is not germicidal, i.e. the plant does not die by as the leaves fall as a result. As a result, other parts of the plants show from excess growth, with this, harvesting is facilitated. Slowing vegetative growth on some plants causes a reduction or elimination of the usual top dominance, which leads to a shortened stalk and increased lateral branching. Such a change in natural growth leads to reduced, bushy plants that have increased resistance to insect infestation and drought The test results for compounds of the general formula (1) for controlling plant growth are presented in Tables 1–4. Test method. A series of white plastic bowls with a diameter of 7.0 inches (19.0 cm) is filled with approximately 10 pounds; (4.54 kg) each sandy soil containing 100 ppm (ppm cis-M- (trichloromethylthio) -4-cyclohexane-1, 2-dicarboximide (manufactured by industry fungicide) and 150 ppm of fertilizer 17-17-17 (i.e., containing weight N, and.) Eight sorghum seeds are placed in each bowl and placed in a hot-house, in which the temperature is maintained at 27 ° C during the day and 21 ° C overnight. During the next five weeks, the grown plants are thinned to one plant per Bowls. Bowls are periodically fertilized with fertilizer 17-17-17. Approximately two weeks before seed germination, the plants are sprayed with solutions of the compounds dissolved in equal parts of acetone and water. The spray system is pressurized with carbon dioxide and mounted in a bicyclic-type apparatus. applied at a rate of 80 gallons per acre (750 l / ha). The concentrations of such solutions are determined in advance in order to obtain the desired application rates. in pounds per acre (at the indicated volume application rate, i.e. 2 pounds / acre (2.2 kg / ha) and 4 pounds / acre (4.5 kg / ha). After treatment, the plants are placed in the greenhouse for another six weeks. During this time periodically, the degree of germination of sbm n and fall of pollen is recorded. Approximately 14 weeks after sowing the seeds are harvested. The stalks are cut at soil level and the pedicle is removed and the box is removed. For each stalk, the seed box is weighed (raw weight ), then it is dried, weighed again (dry weight) and the length of the pedicle is measured. The stem is then removed from the foliage and leaf covering and the length and weight of the cxeLxria is determined.The stem is then cut into small sections and squeezed and squeezed on a hydraulic press under a pressure of 20,000 pounds / day1 (138PRO Ignotonop / cm). its quality is determined on the basis of the total amount of dissolved solids. The latter value is measured using a hand-held refractometer and is expressed in weight percent with respect to the total quantity of juice. For each test compound and for each application rate, six parallel tests are carried out. In addition, six untreated plants are used for comparison as control plants. The results are in the table. 1 and 2. Table 1 shows the data (average of six tests) relating to the growth of the seed box and the pollen drop. In each case, KM case is the degree of occurrence of seeds of boxes. and pollen diminishes when the IMoro compound is used, especially by 82, 84 and 86 days after the initial sowing of seeds. Such a decrease in bloom is one of the indications for increasing the efficiency of production and preservation of sucrose.
Average values before harvest
. Table 2 presents the average results of measurements of the weight of seed boxes, pedicels, stem length and the amount of squeezed juice after harvest. These data indicate a decrease in the wet and dry weight of the seed pods and the length of the pedicel and an increase in the 11 percent content of the total dissolved solids in the squeezed juice when using the test compound.
That blitz
Note. I, - Appearance of the seed box,%
P - Fall of pollen,%. ,
Post Harvest Average
75 2 O
1b / a) 1b / a) 1b / a)
one
Table 2
Note. Fw
DW TDS
EXAMPLE 5 A technique similar to that described in Example 4 was used to further evaluate plant growth-controlling properties of compounds A and B. However, in these experiments plants were more mature when spraying them with chemical compounds, i.e. seed results before harvesting - the average of six
The number of days after sowing seeds
Test compound
Note. I- Appearance of the seed box,%
P - Fall of pollen,%.
Prolong) (Yenis Table 2
wet weight;
dry weight;
total dissolved solids
substances. :
The robots had already begun to appear and harvesting was carried out after 20 Weeks, and not after 14. Despite this, the effectiveness of regulating plant growth was observed in the same way as. in example 4, as indicated in table 3 and 4.. .
TabLyZa
test
Post-harvest results
experiments EXAMPLE. fW wet weight; dry weight; total number of substances

权利要求:
Claims (1)
[1]
1. USSR patent 680651,

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引用文献:

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US3853530A|1971-03-10|1974-12-10|Monsanto Co|Regulating plants with n-phosphonomethylglycine and derivatives thereof|

US4131448A|1975-09-15|1978-12-26|Monsanto Company|N-Organo-N-phosphonomethylglycine-N-oxides and phytotoxicant compositions containing same|

US3904654A|1973-08-06|1975-09-09|Monsanto Co|Urea-phosphorus compounds|

US3991095A|1975-12-29|1976-11-09|Monsanto Company|N-thiolcarbonyl derivatives of N-phosphonomethylglycine|US4261727A|1979-08-02|1981-04-14|Monsanto Company|Herbicidal N-substituted triesters of N-phosphonomethylglycine|

US4328027A|1981-04-16|1982-05-04|Stauffer Chemical Company|Di-triethylamine salt of N,N'-bis-carboethoxymethyl-N,N'-bis-phosphonomethylurea and its use as a plant growth regulator|

US4505735A|1983-01-20|1985-03-19|Monsanto Co.|Tetra-N-substituted urea derivatives as herbicides|

IE56605B1|1983-01-28|1991-10-09|Schering Corp|Phosphorous containing amide compounds,pharmaceutical compositions containing them,and processes for their preparation|

US5590983A|1995-09-05|1997-01-07|Angell; Edwin C.|Method of improving soil irrigation with an improved solution grade calcium sulfate dihydrate|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

US06/008,719|US4191552A|1979-02-02|1979-02-02|Amine salts of substituted N-phosphonomethylureas and their use as plant growth regulators|

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