US3714350A - Phosphoryl and thiophosphoryl pyrones as insecticides - Google Patents

Phosphoryl and thiophosphoryl pyrones as insecticides Download PDF

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US3714350A
US3714350A US00813394A US3714350DA US3714350A US 3714350 A US3714350 A US 3714350A US 00813394 A US00813394 A US 00813394A US 3714350D A US3714350D A US 3714350DA US 3714350 A US3714350 A US 3714350A
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pyrone
methyl
phosphoryl
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compounds
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S Gough
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Bayer CropScience Inc USA
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Mobil Oil Corp
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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07FACYCLIC, CARBOCYCLIC OR HETEROCYCLIC COMPOUNDS CONTAINING ELEMENTS OTHER THAN CARBON, HYDROGEN, HALOGEN, OXYGEN, NITROGEN, SULFUR, SELENIUM OR TELLURIUM
    • C07F9/00Compounds containing elements of Groups 5 or 15 of the Periodic Table
    • C07F9/02Phosphorus compounds
    • C07F9/547Heterocyclic compounds, e.g. containing phosphorus as a ring hetero atom
    • C07F9/655Heterocyclic compounds, e.g. containing phosphorus as a ring hetero atom having oxygen atoms, with or without sulfur, selenium, or tellurium atoms, as the only ring hetero atoms
    • C07F9/6552Heterocyclic compounds, e.g. containing phosphorus as a ring hetero atom having oxygen atoms, with or without sulfur, selenium, or tellurium atoms, as the only ring hetero atoms the oxygen atom being part of a six-membered ring
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N57/00Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds
    • A01N57/10Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds having phosphorus-to-oxygen bonds or phosphorus-to-sulfur bonds
    • A01N57/16Biocides, pest repellants or attractants, or plant growth regulators containing organic phosphorus compounds having phosphorus-to-oxygen bonds or phosphorus-to-sulfur bonds containing heterocyclic radicals
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07FACYCLIC, CARBOCYCLIC OR HETEROCYCLIC COMPOUNDS CONTAINING ELEMENTS OTHER THAN CARBON, HYDROGEN, HALOGEN, OXYGEN, NITROGEN, SULFUR, SELENIUM OR TELLURIUM
    • C07F9/00Compounds containing elements of Groups 5 or 15 of the Periodic Table
    • C07F9/02Phosphorus compounds
    • C07F9/547Heterocyclic compounds, e.g. containing phosphorus as a ring hetero atom
    • C07F9/553Heterocyclic compounds, e.g. containing phosphorus as a ring hetero atom having one nitrogen atom as the only ring hetero atom
    • C07F9/576Six-membered rings
    • C07F9/58Pyridine rings

Definitions

  • the new compounds are useful pesticides, and methods are provided for using them for same.
  • This invention relates to new phosphorus-containing compounds and to their use as pesticides. More particularly, the invention relates to phosphoryl 2-pyrones, phosphoryl Z-pyridones and phosphoryl thio-2-pyrones and to their use in controlling pests.
  • German Pat. 1,198,351 discloses compounds of the type exemplified by While all of the above references teach the use of the compounds disclosed therein as insecticides, neither of them, nor combinations thereof, suggest the compounds of this invention as described hereinafter.
  • R and R are from the group consisting of alkyl (C -C cycloalkyl (C -C alkenyl (C -C haloalkyl (C -C haloalkenyl, aryl and haloaryl
  • Y is attached at one of the 3-, 4-, 5-, and 6- positions and is from the group consisting of hydrogen, alkyl (C Cycloalkyl (C -C alkenyl (C -C haloalkyl (C -C haloalkenyl (C -C alkyl (ct-alkylimino), aryl, alkaryl, aralkyl, haloaryl, N0 halogen, CN, COOR, COR, OR and SR, wherein in the last 4 members R is as already defined, X is from the group consisting of oxygen, sulfur and
  • a pesticidal composition comprising a pesticidal amount of the above-defined compound and a pesticidal carrier therefor.
  • inventive compounds may be prepared by reaction of appropriate phosphorus compound of the formula RX M l o R4 wherein R, R, X and M are as hereinbefore defined and Q is halogen, with a compound of the formula (CHzOhi Cl )l 01 CH;
  • (CH3 S )I% C! and they may be prepared in known ways.
  • (1) can, for example, be prepared by reacting 3 moles of methanol with 1 mole of phosphorus trichloride followed by chlorination of the resulting product.
  • (2) can be prepared by adding 1 mole of methanol to the product obtained from the so-called Clay reaction, which reaction is represented by the following:
  • (3) can be synthesized by reacting methane with phosphorus trichloride at elevated temperatures in the vapor phase, reacting the product thus formed with sulfur and reacting this product with 1 mole of methyl mercaptan.
  • (4) can be obtained by reacting 2 moles of methyl mercaptan with phosphorus oxychloride.
  • Triacetic lactone for example, is made by contacting dehydroacetic acid with 90% H 80 at 135 C. for 5 minutes. See Collie, J. Chem. Soc. 59, 609 (1891).
  • the 3-chloro derivatives may be prepared by treating triacetic lactone with sulfuryl chloride in glacial acetic acid and recovering the crystalline material (M.P. 238 C.). By bromination of triacetic lactone in acetic acid, the 3-bromo derivative is formed. See Arndt and Avan, Ber. 84, 346 (1951).
  • 2,4-dioxo-3-ethyl (u-ethylimino)-6-methylpyrone can be obtained by the method of Garratt, J. Org. Chem. 28, 1886 (1963), i.e., reaction of dehydroacetic acid with ethylamine.
  • the derivative having benzyl, methyl, and phenyl groups in the 3, 5, and 6 positions, respectively, is prepared by reacting propiophenone with diethyl benzylmalonate. See Goetschel and Mentzner, Bull. Soc. Chem. FL, 365 (1962). Reaction of this derivative with aluminum chloride removes the benzyl group, and there is obtained 2,4-dioxo-5-methyl-6-phenylpyrone.
  • 1,6-dimethyl-4-hydroxy-2-pyridone is prepared by the method of Arndt, Eistert, Schotz and Aron (Ber. 69, 2373 (1936)), by reaction of triacetic lactone with methylamine.
  • the l-ethyl, l-propyl, and l-butyl derivatives are prepared in like manner from ethylamine, propylamine, and butylamine, respectively.
  • the sodium salts are prepared in a manner similar to the method shown in Example 1.
  • the organophosphorus compounds of the present invention are stable and well-defined, and are particularly suited for pesticidal use when employed alone or in combination with carriers generally utilized in the pesticide art.
  • the carrier adjuvants may be liquid or solid, depending upon the area to be treated, the type of pest to be controlled, and the kind of equipment available for application. When employing liquid formulations, they may be in the form of true solutions, dispersions, or emulsions.
  • Solutions as used herein, means that the compounds of the invention are of molecular size held in true solution by any suitable solvent therefor. It is noted that the inventive compounds are generally water insoluble, thus requiring an organic solvent having no phytotoxic effects when true solutions are desirable or necessary. Acetone, for example, although it will cause plant injury if kept in contact therewith, can be used as the solvent since it will dissipate rapidly when sprayed in the open, thus leaving the plant free from injury.
  • dispersion covers those liquid phases in which the active ingredient is colloidal in size and which is distributed throughout as particles held in suspension by wetting agents or by soaps.
  • the dispersive medium is usually totally aqueous, but it may contain small quantities of organic solvent, i.e., amounts not sufiicient to cause solution of the active member.
  • the wetting agents referred to are useful as aids in uniformly distributing the active material over the area to be treated, particularly over plant areas.
  • the wetting agent helps to prevent build-up of droplets on certain portions of the area, whereupon other portions are left untouched or insufliciently treated by the toxicant.
  • These wetting agents are so well known to the art that it would serve no useful purpose to enumerate them here.
  • Tween-20 (a polyethylene sorbitan monolaurate) is an example of a useful agent which can be used.
  • Solid formulations contemplated may be bodies of dusts or granules containing pesticidal amounts of the organophosphorus compounds of the invention.
  • Many solids are known by the art to be useful as pesticide carriers. Examples of these are kaolin, talc, kieselguhr, diatomaceous earth, pyrophyllite, bentonite, calcium carbonate, powdered cork, wood, walnut shells and peanut shells, fullers earth, tricalcium phosphate, and the like.
  • Dust or granular formulations may be prepared by grinding carrier and chemical together, followed by tumbling for a suflicient time to obtain adequate distribution of chemical.
  • a more uniform product can be made if the active ingredient is dissolved in a volatile solvent, such as acetone, prior to admixing with the carrier, added to a tumbling mass of carrier, tumbled until well-mixed, and then dried in any convenient manner.
  • the mass may be dried by applying heat thereto while tumbling or by spreading it into a thin layer and allowing it to dry in the open.
  • inventive organophosphorus compounds may be applied as aerosols, in which case it is convenient to dissolve them in any suitable solvent and to disperse this solution in dichlorofiuoromethane or other chlorofluoroalkans having a boiling point below room temperature at ambient pressures. It is contemplated that other suitable materials boiling below room temperature will also be useful for this purpose.
  • the concentration of the chemicals disclosed herein may vary over a wide range provided a lethal or toxic dosage thereof is placed upon theinsect or in its immediate surroundings. Practically, the formulations will contain from about 0.0001 to about 1% of active ingredient by weight. Somewhat more than 1% may at times be necessary because of weather conditions, pest resistance, and the like. Usually, however, there will be no advantage in using more than 1%.
  • the toxicant or compositions containing it may be sprayed (if a liquid) or spread (if a solid) over the ground. Thereafter, the material may be left to the natural action of rainfall, or it may he drenched or plowed and disked into the soil. It the host is plant life, a solid formulation may be dusted onto the plant by the same method used to apply other well known solid pesticidal compositions. When liquid sprays are employed to treat plant hosts, the liquid composition may be sprayed onto the plant just to the point of liquid run-off.
  • 25 1,6-dimethyl-4-0,0-diethylphosphoryl-Z-pyrldone.
  • 26 1,6-d1methyl-4-0,0-diethylthioph0sphoryl-il'pyridone.
  • 27 1-ethyl-4-0,0-diethylphosphoryl-6-methyl-2-pyridone.
  • 28 l-ethylt-0,0-diethy1thiophosphoryHi-rnethyl-2-pyridone.
  • 29 1-n-pr0pyl-4-0,0 -diethylphosphoryl-6-methyl-2-pyridone.
  • EXAMPLE 32 This example will illustrate the utility of the compounds of the invention against a wide variety of household and agricultural pests.
  • Pest controlled and method therefor Preparation of the formulation: A solution containing 500 ppm. of the compound of Example 1 was prepared by dissolving 50 mg. thereof in 5 ml. of acetone, adding 0.4 ml. of Tween-20 and diluting with ml. of water. Other concentrations were prepared by diluting this with the appropriate amount of water. Solutions of other compounds were prepared similarly, unless otherwise shown.
  • Mexican bean beetle Bean leaves were momentarily dipped into the test solution and were allowed to dry. After drying, a leaf was placed in a screened Petri dish and 10 beetle larvae were introduced. Results in duplicate, were taken after 24 hours.
  • Southern armyworm This test is run as directed for the Mexican bean beetle, except that southern armyworm larvae were used.
  • Spider mite Mite infested leaves were momentarily dipped into the test solution and were then placed (stem only) into a one-ounce bottle of water. Tests were run in duplicate, and results were recorded after 72 hours.
  • Housefly Ten houseflies were placed in screened Petri dishes lined with filter paper, and the dishes were placed on a turn-table. 10 ml. of test solution was sprayed onto the dishes from a distance of one foot, using a De Vilbiss microsprayer set at 10 pounds of pressure. Tests were in duplicate, with results being taken after 24 hours.
  • Yellow fever mosquito larvae A 0.2 ml. portion of the above 500 ppm. solution of the compound of Example 1 was diluted to ml. with water to give a 1 p.p.m. solution. This was diluted with water to give other, smaller, concentrations.
  • German cockroach This test was run as directed for the housefly, except that the German cockroach was substituted therefor.
  • Bean aphid Fifty mg. of the compound of Example 1 was dissolved in 100 ml. of acetone containing 10 drops of Tween-20 to give a concentration of 500 ppm. This was diluted with more acetone to give other concentra tions.
  • Nasturtium leaves infested with bean aphids were placed in screened Petri dishes lined with filter paper. 10 ml. of the test solution was sprayed onto the dishes from a distance of 1 foot, using a De Vilbiss microsprayer set at 15 pounds of pressure. Spraying was done in a spray hood, with the dishes resting on a turntable rotating at 30 rpm. Tests were in duplicate, with results being taken after 24 hours.
  • Boll weevil The test solution (500 ppm.) was prepared as shown for the bean aphid test. Other concentrations were prepared by dilution with acetone.
  • test solution was sprayed onto the dishes from a distance of 1 foot, using a De Vilbiss microsprayer set at 15 pounds of pressure, while the turntable was rotating at 30 rpm. Tests were run in duplicate, and results were taken after 48 hours.
  • a method for controlling insects which comprises applying thereto an insecticidal amount of a compound of the formula:
  • R and R are alkyl of 1-4 carbon atoms
  • M is oxygen or sulfur
  • X is hydrogen or 'halogen
  • Y is alkyl of l-6 carbon atoms.

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Abstract

NEW COMPOUNDS FROM THE CLASSES OF PHOSPHORYL 2PYRONES, PHOSPHORYL 2-PYRIDONES AND PHOSPHORYL THIO-2PYRONES ARE PROVIDED. THE PHOSPHORUS MOIETY IS PREFERABLY ATTACHED TO THE 4-POSITION OF THE RING STRUCTURE, AND CONTAINS ORGANIC SUBSTITUENTS ATTACHED DIRECTLY TO THE PHOSPHORUS ATOM OR ATTACHED THERETO THROUGH AN ATOM OF OXYGEN OR SULFUR. THE NEW COMPOUNDS ARE USEFUL PESTICIDES, AND METHODS ARE PROVIDED FOR USING THEM FOR SAME.

Description

"United States Patent omce 3,714,350 Patented Jan. 30, 1973 ABSTRACT OF THE DISCLOSURE New compounds from the classes of phosphoryl 2- pyrones, phosphoryl 2-pyridones and phosphoryl thio-2- pyrones are provided. The phosphorus moiety is preferably attached to the 4-position of the ring structure, and contains organic substituents attached directly to the phosphorus atom or attached thereto through an atom of oxygen or sulfur.
The new compounds are useful pesticides, and methods are provided for using them for same.
REFERENCE TO RELATED APPLICATIONS This application is a division of copending application Ser. No. 667,380, filed Sept. 13, 1967, now abandoned.
BACKGROUND OF THE INVENTION Field of the invention This invention relates to new phosphorus-containing compounds and to their use as pesticides. More particularly, the invention relates to phosphoryl 2-pyrones, phosphoryl Z-pyridones and phosphoryl thio-2-pyrones and to their use in controlling pests.
Summary of the prior art US. Pat. 2,778,767 discloses phosphorus esters derived from kojic acid exemplified in particular by the diethylthiophosphate of kojic acid of the formula olmopmswm US. Pat. 3,200,131 relates to halogenated phosphinopyranones prepared by reacting a tetrahalo a-pyrone with a trialkyl phosphite. The compounds of the reference may be illustrated by dimethoxyphosphine-trichloro 2H-2- pyranone.
Finally, German Pat. 1,198,351 discloses compounds of the type exemplified by While all of the above references teach the use of the compounds disclosed therein as insecticides, neither of them, nor combinations thereof, suggest the compounds of this invention as described hereinafter.
SUMMARY OF THE INVENTION MXR wherein the phosphorus portion is attached at one of the 3, 4, 5, and 6 positions, and wherein R and R are from the group consisting of alkyl (C -C cycloalkyl (C -C alkenyl (C -C haloalkyl (C -C haloalkenyl, aryl and haloaryl, Y is attached at one of the 3-, 4-, 5-, and 6- positions and is from the group consisting of hydrogen, alkyl (C Cycloalkyl (C -C alkenyl (C -C haloalkyl (C -C haloalkenyl (C -C alkyl (ct-alkylimino), aryl, alkaryl, aralkyl, haloaryl, N0 halogen, CN, COOR, COR, OR and SR, wherein in the last 4 members R is as already defined, X is from the group consisting of oxygen, sulfur and nothing, wherein at least one X is oxygen or sulfur, M is from the group consisting of oxygen and sulfur, n is an integer from O to 3, Y being the same or different when n is from 2 to 3, and Z is from the group consisting of oxygen, sulfur and NR", wherein R is from the group consisting of R, R, alkaryl, aralkyl, and the members substituted with OH, CN, NH OR, SR, COOR or NR wherein R is already defined.
There is additionally provided a method of the control of pests, particularly insects, which comprises applying thereto a pesticidal amount of the above-definedcompound.
There is further provided a pesticidal composition comprising a pesticidal amount of the above-defined compound and a pesticidal carrier therefor.
DESCRIPTION OF SPECIFIC EMBODIMENTS In general aspect, the inventive compounds may be prepared by reaction of appropriate phosphorus compound of the formula RX M l o R4 wherein R, R, X and M are as hereinbefore defined and Q is halogen, with a compound of the formula (CHzOhi Cl )l 01 CH;
(3) CHsS S i or CH;
(CH3 S )I% C! and they may be prepared in known ways. (1) can, for example, be prepared by reacting 3 moles of methanol with 1 mole of phosphorus trichloride followed by chlorination of the resulting product. (2) can be prepared by adding 1 mole of methanol to the product obtained from the so-called Clay reaction, which reaction is represented by the following:
(3) can be synthesized by reacting methane with phosphorus trichloride at elevated temperatures in the vapor phase, reacting the product thus formed with sulfur and reacting this product with 1 mole of methyl mercaptan. (4) can be obtained by reacting 2 moles of methyl mercaptan with phosphorus oxychloride.
The starting ring compounds are known and may be prepared in known ways. Triacetic lactone, for example, is made by contacting dehydroacetic acid with 90% H 80 at 135 C. for 5 minutes. See Collie, J. Chem. Soc. 59, 609 (1891). The 3-chloro derivatives may be prepared by treating triacetic lactone with sulfuryl chloride in glacial acetic acid and recovering the crystalline material (M.P. 238 C.). By bromination of triacetic lactone in acetic acid, the 3-bromo derivative is formed. See Arndt and Avan, Ber. 84, 346 (1951).
2,4-dioxo-3-ethyl (u-ethylimino)-6-methylpyrone can be obtained by the method of Garratt, J. Org. Chem. 28, 1886 (1963), i.e., reaction of dehydroacetic acid with ethylamine. The derivative having benzyl, methyl, and phenyl groups in the 3, 5, and 6 positions, respectively, is prepared by reacting propiophenone with diethyl benzylmalonate. See Goetschel and Mentzner, Bull. Soc. Chem. FL, 365 (1962). Reaction of this derivative with aluminum chloride removes the benzyl group, and there is obtained 2,4-dioxo-5-methyl-6-phenylpyrone.
In addition, 1,6-dimethyl-4-hydroxy-2-pyridone is prepared by the method of Arndt, Eistert, Schotz and Aron (Ber. 69, 2373 (1936)), by reaction of triacetic lactone with methylamine. The l-ethyl, l-propyl, and l-butyl derivatives are prepared in like manner from ethylamine, propylamine, and butylamine, respectively. The sodium salts are prepared in a manner similar to the method shown in Example 1.
The organophosphorus compounds of the present invention are stable and well-defined, and are particularly suited for pesticidal use when employed alone or in combination with carriers generally utilized in the pesticide art. The carrier adjuvants may be liquid or solid, depending upon the area to be treated, the type of pest to be controlled, and the kind of equipment available for application. When employing liquid formulations, they may be in the form of true solutions, dispersions, or emulsions.
Solutions, as used herein, means that the compounds of the invention are of molecular size held in true solution by any suitable solvent therefor. It is noted that the inventive compounds are generally water insoluble, thus requiring an organic solvent having no phytotoxic effects when true solutions are desirable or necessary. Acetone, for example, although it will cause plant injury if kept in contact therewith, can be used as the solvent since it will dissipate rapidly when sprayed in the open, thus leaving the plant free from injury.
The term dispersion covers those liquid phases in which the active ingredient is colloidal in size and which is distributed throughout as particles held in suspension by wetting agents or by soaps. The dispersive medium is usually totally aqueous, but it may contain small quantities of organic solvent, i.e., amounts not sufiicient to cause solution of the active member.
The wetting agents referred to, in addition to aiding in suspending the toxic particles, are useful as aids in uniformly distributing the active material over the area to be treated, particularly over plant areas. In other words, the wetting agent helps to prevent build-up of droplets on certain portions of the area, whereupon other portions are left untouched or insufliciently treated by the toxicant. These wetting agents are so well known to the art that it would serve no useful purpose to enumerate them here. Tween-20 (a polyethylene sorbitan monolaurate) is an example of a useful agent which can be used.
Solid formulations contemplated may be bodies of dusts or granules containing pesticidal amounts of the organophosphorus compounds of the invention. Many solids are known by the art to be useful as pesticide carriers. Examples of these are kaolin, talc, kieselguhr, diatomaceous earth, pyrophyllite, bentonite, calcium carbonate, powdered cork, wood, walnut shells and peanut shells, fullers earth, tricalcium phosphate, and the like.
Dust or granular formulations may be prepared by grinding carrier and chemical together, followed by tumbling for a suflicient time to obtain adequate distribution of chemical. However, a more uniform product can be made if the active ingredient is dissolved in a volatile solvent, such as acetone, prior to admixing with the carrier, added to a tumbling mass of carrier, tumbled until well-mixed, and then dried in any convenient manner. The mass may be dried by applying heat thereto while tumbling or by spreading it into a thin layer and allowing it to dry in the open.
Additionally, the inventive organophosphorus compounds may be applied as aerosols, in which case it is convenient to dissolve them in any suitable solvent and to disperse this solution in dichlorofiuoromethane or other chlorofluoroalkans having a boiling point below room temperature at ambient pressures. It is contemplated that other suitable materials boiling below room temperature will also be useful for this purpose.
The concentration of the chemicals disclosed herein may vary over a wide range provided a lethal or toxic dosage thereof is placed upon theinsect or in its immediate surroundings. Practically, the formulations will contain from about 0.0001 to about 1% of active ingredient by weight. Somewhat more than 1% may at times be necessary because of weather conditions, pest resistance, and the like. Usually, however, there will be no advantage in using more than 1%.
In controlling soil-borne pests, the toxicant or compositions containing it may be sprayed (if a liquid) or spread (if a solid) over the ground. Thereafter, the material may be left to the natural action of rainfall, or it may he drenched or plowed and disked into the soil. It the host is plant life, a solid formulation may be dusted onto the plant by the same method used to apply other well known solid pesticidal compositions. When liquid sprays are employed to treat plant hosts, the liquid composition may be sprayed onto the plant just to the point of liquid run-off.
Having described the invention in general terms, the following examples of the chemicals of this invention and their use as pesticides are olfered. It will be understood that the examples given merely illustrate the invention by way of specific embodiments, and thus are not to be construed as limitations upon it. The invention, with respect to the chemicals themselves and to their use against pests, is to be limited only to the extent of the broader definition set forth hereinbefore, the appended claims and reasonable equivalents flowing therefrom. In the examples, parts are parts by weight unless otherwise designated.
EXAMPLE 1 4-0,0-diethylphosphoryl-G-methyl-2-pyrone OH CH:
Into a vessel equipped with a stirrer, thermometer and liquid dropping means was placed 3.0 parts of triacetic lactone (-hydroxy-3-oxo-hex-4-enoic-acid-6-lactone) and about 70 parts of benzene. While stirring the benzenelactone mixture, 1.14 parts of sodium hydride as a 50% dispersion in oil was added thereto at C. to effect formation of the sodium salt of the lactone. The reaction mixture was heated to reflux and maintained there for 45 minutes to insure complete reaction. Thereafter, the mass was cooled to about 25 C., and 4.1 parts of diethyl phosphorochloridate was added thereto, with stirring, over a period of minutes. After refluxing for 2 hours, filtering and evaporating the solvent, 6.0 parts of 4-0,0- diethylphosphoryl 6 methyl 2 pyrone was obtained as an amber oil having the following IR and NMR analyses:
This is consistent with the desired ll-PYI'OIIC structure.
NMR: A- triplet at 8.657, J=7 cps. (corresponding to P-OCH CH a quintet at 5.731-, I =7 cps. (corresponding to POCH OH a singlet at 7.731 (corresponding to C-CH of ring); and two peaks at 3.81- and 4.071- (ring protons). The proton count was commensurate with the assigned structure.
Compound name Example:
2 4-0.0-dimethylphosphory1-6Fmethyl-2-pyrone.
4-0 ,0 -dimethyl thiophosphoryl-fi-methy1-2-pyrone.
4-0 ,O-dieth ylthiophosphoryl-6-rnethyl-2-pyrone.
4-0 ,O'diisopropyl thiophosphory1-6-methyl-2-pyrone.
6 4-(S-propy1 methyldithiophosphonyl)-6-methyl-2-pyr0ne. 7 3chl0ro-4-0,0-dimethylphosphoryHi-rnethyl-Z-pyrone. 8 3chloro-40 ,O-di1nethylthiophosphoryl-6-methyl-2-pyrone.
3-chloro-4-O ,O-diethylphosphory1-6-methyl-2-pyrone.
B-chloro-et-O ,O-diethylthiophosphoryl-6-meth yl-2-pyrone.
3-chloro-4-(S-propyl methyldithiophosphonyl) -6 methy1 2-pyrone 12 3-brorno-4-b,0-dimethylphosphoryl-6-methyl-2-pyrone.
13 3-bromo-4-0,0-diethylph0sphoryl-fi-methylQ-pyrone.
14 3-ethyl(a-ethylimino)-4-0,0-d1ethylphosphoryl-fi-methyl- 2-pyrone.
- B-acetylA-0,0-diethylphosph0ryl-6-methyl-2-pyrone. 3-acetyl-4-O ,O-dimethylphosphoryl-6-methyl-2-pyrone. 3-benzyl-4-0,0-dimethylph0sphoryl-S-methyl-G-phenyl- 2-pyrone.
18 S-Eenzyll-O ,0 -diethylphosphoryl5-methyl-6-phenyl- -pyr0ne.
19 4-0,O-diethylphosphoryl-5-methyl-6Fphenyl-2-pyrone.
4-0 ,O-diethylphosphoryl-6-ethyl-2-pyrone.
4O ,0 -diethylphosphoryl-6-isopropyl-Z-pyrone. 4-0,0-diethylphosphoryl-6-n-propyl-2-pyrone. 23.- 4-0,0-diethylphosphoryl-fi-phenyl-Z-pyrone.
EXAMPLE 24 1,6-dimethyl 4-0,0-dimethylphosphory1-2-pyridone I O (cHzOhi Ol I CH3 N 0 CH N 0 IR: Bands at 5.98;; (@O of a-pyridone), 7.7g (P=O),
and 9.5 1. (POC).
NMR: A doublet at 6.151- (POCH a singlet at 7.617 (CCH of ring), a singlet at 6.581- (N--CI-l of ring), and a singlet at 3.97 (ring protons). The proton count was in agreement with the assigned structure.
The following compounds were prepared similarly to Example 24, using the appropriate chlorophosphate and the sodium salt of the appropriate pyridone. Their IR and NMR spectra, and the integration of the NMR spectra were commensurate with the assigned structures.
Compound name Example:
25 1,6-dimethyl-4-0,0-diethylphosphoryl-Z-pyrldone. 26 1,6-d1methyl-4-0,0-diethylthioph0sphoryl-il'pyridone. 27 1-ethyl-4-0,0-diethylphosphoryl-6-methyl-2-pyridone. 28 l-ethylt-0,0-diethy1thiophosphoryHi-rnethyl-2-pyridone. 29 1-n-pr0pyl-4-0,0 -diethylphosphoryl-6-methyl-2-pyridone.
l-n-butyl-4-O ,0-diethylphosphoryl-G-methyl-2-pyri done. 31 1-allyl-4-0,0-diethylphosphoryl-6-methyl-2-pyridone.
EXAMPLE 32 This example will illustrate the utility of the compounds of the invention against a wide variety of household and agricultural pests.
Pest controlled and method therefor Preparation of the formulation: A solution containing 500 ppm. of the compound of Example 1 was prepared by dissolving 50 mg. thereof in 5 ml. of acetone, adding 0.4 ml. of Tween-20 and diluting with ml. of water. Other concentrations were prepared by diluting this with the appropriate amount of water. Solutions of other compounds were prepared similarly, unless otherwise shown.
Mexican bean beetle: Bean leaves were momentarily dipped into the test solution and were allowed to dry. After drying, a leaf was placed in a screened Petri dish and 10 beetle larvae were introduced. Results in duplicate, were taken after 24 hours.
Southern armyworm: This test is run as directed for the Mexican bean beetle, except that southern armyworm larvae were used.
Spider mite: Mite infested leaves were momentarily dipped into the test solution and were then placed (stem only) into a one-ounce bottle of water. Tests were run in duplicate, and results were recorded after 72 hours.
Housefly: Ten houseflies were placed in screened Petri dishes lined with filter paper, and the dishes were placed on a turn-table. 10 ml. of test solution was sprayed onto the dishes from a distance of one foot, using a De Vilbiss microsprayer set at 10 pounds of pressure. Tests were in duplicate, with results being taken after 24 hours.
Yellow fever mosquito larvae: A 0.2 ml. portion of the above 500 ppm. solution of the compound of Example 1 was diluted to ml. with water to give a 1 p.p.m. solution. This was diluted with water to give other, smaller, concentrations.
In duplicate tests, ten mosquito larvae were introduced directly into the desired solution, and results were recorded after 24 hours.
German cockroach: This test was run as directed for the housefly, except that the German cockroach was substituted therefor.
Bean aphid: Fifty mg. of the compound of Example 1 was dissolved in 100 ml. of acetone containing 10 drops of Tween-20 to give a concentration of 500 ppm. This was diluted with more acetone to give other concentra tions.
Nasturtium leaves infested with bean aphids were placed in screened Petri dishes lined with filter paper. 10 ml. of the test solution was sprayed onto the dishes from a distance of 1 foot, using a De Vilbiss microsprayer set at 15 pounds of pressure. Spraying was done in a spray hood, with the dishes resting on a turntable rotating at 30 rpm. Tests were in duplicate, with results being taken after 24 hours.
Boll weevil: The test solution (500 ppm.) was prepared as shown for the bean aphid test. Other concentrations were prepared by dilution with acetone.
Ten boll weevil larvae were placed in a screened Petri dish lined with filter paper, and the dishes were placed on a turntable in a spray hood. 20 ml. of the test solution was sprayed onto the dishes from a distance of 1 foot, using a De Vilbiss microsprayer set at 15 pounds of pressure, while the turntable was rotating at 30 rpm. Tests were run in duplicate, and results were taken after 48 hours.
RESULTS.COMPOUND F EXAMPLE 1 Percent control 100 1 0. 1 p.p.m. p.p.n1. ppm.
Pest
Mexican bean beetle- Southern armyworm- Spider mite Bean aphid Boll weevil Compound MB SA SM HF ML (30 BA BW Example:
I claim:
1. A method for controlling insects which comprises applying thereto an insecticidal amount of a compound of the formula:
wherein R and R are alkyl of 1-4 carbon atoms, M is oxygen or sulfur, X is hydrogen or 'halogen, and Y is alkyl of l-6 carbon atoms.
2. The method of claim 1 in which the compound is 4-0,0-dimethylthiophosphoryl--methyl-Z-pyrone.
3. The method of claim 1 in which the compound is 3-chloro-4-diethylphosphoryl-6-methyl-2-pyrone.
4. The method of claim 1 in which the compound is 4-0,0-diethylphosphoryl-6-methyl-2pyrone.
5. The method of claim 1 in which the compound is 4-0,0-dimethylph0sphoryl-6-methyl-2-pyrone.
6. The method of claim 1 in which the compound is 4-0,0 diethylthiophosphoryl-6-methyl-Z-pyrone.
References Cited UNITED STATES PATENTS 3,221,027 11/1965 Foster et al. 260343.2 3,235,450 2/ 1966 Bushong 424203 3,294,630 12/ 1966 Poll et al 424-203 3,413,318 11/1968 Baker 260-343.6
ALAN L. ROTMAN, Primary Examiner US. Cl. X.R.
260294.8 K, 294.9, 295 R, 296 R, 297 P
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US4320122A (en) * 1979-06-15 1982-03-16 Basf Aktiengesellschaft 6-Fluoropyridyl-(di)(thio)phosphoric acid esters
US4608367A (en) * 1984-07-31 1986-08-26 Otsuka Kagaku Kabushiki Kaisha γ-Pyrone phosphoric ester derivatives and insecticidal and miticidal compositions thereof
US5958452A (en) * 1994-11-04 1999-09-28 Euro-Celtique, S.A. Extruded orally administrable opioid formulations
US20070038353A1 (en) * 2005-08-15 2007-02-15 Larschan Bradley R Driver activity and vehicle operation logging and reporting
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US4320122A (en) * 1979-06-15 1982-03-16 Basf Aktiengesellschaft 6-Fluoropyridyl-(di)(thio)phosphoric acid esters
US4608367A (en) * 1984-07-31 1986-08-26 Otsuka Kagaku Kabushiki Kaisha γ-Pyrone phosphoric ester derivatives and insecticidal and miticidal compositions thereof
US5958452A (en) * 1994-11-04 1999-09-28 Euro-Celtique, S.A. Extruded orally administrable opioid formulations
US5965161A (en) * 1994-11-04 1999-10-12 Euro-Celtique, S.A. Extruded multi-particulates
US6261599B1 (en) 1994-11-04 2001-07-17 Euro-Celtique, S.A. Melt-extruded orally administrable opioid formulations
US6335033B2 (en) 1994-11-04 2002-01-01 Euro-Celtique, S.A. Melt-extrusion multiparticulates
US6706281B2 (en) 1994-11-04 2004-03-16 Euro-Celtique, S.A. Melt-extrusion multiparticulates
US6743442B2 (en) 1994-11-04 2004-06-01 Euro-Celtique, S.A. Melt-extruded orally administrable opioid formulations
US20050089568A1 (en) * 1994-11-04 2005-04-28 Euro-Celtique S.A. Melt-extruded orally administrable opioid formulations
US7510727B2 (en) 1994-11-04 2009-03-31 Purdue Pharma L.P. Melt-extrusion multiparticulates
US8557286B1 (en) 1999-04-22 2013-10-15 Euroceltique, S.A. Method for producing a water-insoluble amorphous or partially amorphous controlled release matrix
US20070038353A1 (en) * 2005-08-15 2007-02-15 Larschan Bradley R Driver activity and vehicle operation logging and reporting

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