TH40694B - Mixtures and methods for plant treatment with exogenous chemicals. - Google Patents

Abstract

DC60 (09/01/41) Mixtures disclosed for plant applications consisting of exogenous chemicals (e.g., herbicides used for post-emergence weeds), reagents. The liquid diluent, and the first forming auxiliary amphiphilic (amphiphilic), where the weight-to-weight ratio of the first such molding agent is to the chemistry. Exogenius supplies are between about 1 3 and about 1: 100; and where such aqueous mixture will cause a Anisotropic mass Anisotropic masses are present in or on the wax layer, and the presence of anisotropic masses can be detected. by the way Test as described here. The mixture of this invention, when applied to the plant, will produce Has enhanced biological efficiency per unit of consumption of such exogenous chemicals, compared to other similar mixtures containing reducing agents surface tension but not in the form of an anisotropic mass without any theoretical attachment, it is now believed that the with enhanced biological efficiency up is the result of Occurrence or expansion of the hydraulic cavity (hydrophilic) through the wax, the outer surface of the plant. The mixtures disclosed for plant applications consist of exogenous chemicals (eg, post-emergence herbicides), liquid diluents, and adjuvant additives. form the first amphiphilic (amphiphilic), where the ratio of weight to The weight of the first such molding agent is per chemistry. Exogenius supplies are between approximately 1:3 and approximately 1:100, and whereby such aqueous mixtures form a Anisotropic mass (anisortopic) is in or on the wax layer, and the presence of anisotropic mass can be detected. can be obtained by the testing method described herein. Mixtures of this invention, when applied to the plant, will provide an amplified biological efficacy. per unit consumption of such exogenous chemicals, as compared to other similar mixtures containing reducing agents surface tension, but not in the form of anisotropic mass without Based on adherence to theory, it is now believed that The enhanced biological efficiency is the result of Occurrence or expansion of the hydraulic cavity (hydrophilic) passes to the outer surface of the plant :

Claims (2)

Claims (all) that will not appear on the advertisement page: 1. Aqueous concentrates containing (a) glyphosate or their plant derivatives (b) amphiphilic forming additives. The weight / weight ratio of the amphilic formulation to glyphosate is approximately 1: 3 to approximately 1: 100 and, wherein, depends on the dilution of the concentrate with water to form As a dilute mixture, the use of a dilute mixture on the leaves of the plant. And the evaporation of water from the dilute mixture, anisotropic mass was produced on or in the wax 2. Method of claim 1, whereby the first formulation additive is a substance in the form of a liposome that contains With amphilic compounds or mixtures of such compounds Said that contains hycrophobi (hycrophobi c. It does not like to combine with water) there are two classes, each of which is a hydro group. A saturated carbill containing from approximately 7 to about 21 carbon atoms; Where amphilic compounds or mixtures of compounds As mentioned above, there are two types of hydrophobic. Composed of approximately 40 to 100% by weight of the substance. Contains all the amphiphilic, which contain two types of hydrophobic. It appears in the substance in the form of the aforementioned liposomes 3. Method of claim No. 2, where the substance in the form Of such liposomes, there is a head group 1 which is hydrophilic. (hydrophilic, like to combine with water) consisting of an ionic cat group 4. Method of claim number 3, where the ionic cat group That is the Ammine group 5. Method of claim No. 1, whereby the first forming adjuvant containing the substance in the form of a liposome There are hydrophobics, which consist of two hydrocarbons. The saturated or unsaturated R1 and R2 with each group having approximately 7 to approximately 21 carbon atoms, where the compound in the aforementioned liposome form, at the pH of which is 4, There is a formula selected from a group consisting of: (a) (chemical formula) where R3 and R4 are independent, hydrogen, - are C1-4 alkyl groups or C1-4 hydroxyl groups. Z, alkyl and Z are suitable anions; (b) (chemical formula) where R5, R6 and R7, which are independent, are hydrogen, are C1-4 alkyl groups or C1-4 hydroxyl alkyl groups and Z are the anions that appropriate; (c) (Chemistry) where R5, R6 R7 and Z are groups, as defined above; And (d) (chemical formula) where R5, R6, R7 are groups as defined above.6. Method of claim 5, where Z is chosen from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and isides. 7. The method of claim 6, where R1 and R2 are independent of each other, are straight molar saturated alkyl groups, each containing approximately 7 to approximately 21 carbon atoms 8. The method of claim 5, where the first such an additive was the phospholipic selected from the group. Which consisted of Di-C8-22 alkanoyl phosphatikylcholine and C8-22 alkanoylffatikyl ethanolamine 9. Method of claim 8, where the first such an additive was a phosphatikyl dipalmitoyl or chystearial ester. Choline Or a mixture of such substances 1 0. Method of claim 1, where the first such additive is an ammonium carbonate compound or a mixture of the said compound containing the class Hydrophobic, which is a saturated alkyl or halo alkyl group that There are about 6 to about 22 carbon atoms 1 1. Method of claim No. 10, where the first such additive is formulated (chemical formula) where R8 refers to the hydrophobic and hydro-group. A carburized or haloalkyl with carbon from about 6 to about 22 atoms; W and Y which are independent, are O or NH; a and b are independent, 0 or 1 but at least. One of the most a and b of such a and b has a value of 1: X is a group CC, SO or SOz; n is 2 to 4; R9, R10 and R11 are independent, C1-4 groups. Alkyl: And T is the appropriate anion 1 2. The method of claim 11, where R8 is a hydrocarbon group and has approximately 12 to approximately 18 carbon atoms 1 3. Method of claim 11, where R8 is added fluorine group 1 4. Method of claim 11, where R8 is added to the perfluorine group 1 5. The method of claim 14, where R8 has about 6 to about 12 carbon atoms 1 6. Method of claim 11, where T was chosen from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and acetates 1 7. Method of claim 11, where R8 is a saturated perfluol alkali group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxide, chloride, bromide iodite, sulfate, phosphate and acetate 1 8. The method of claim 17, where X is a SO2 group n is 3, and T is a chloride group, bromite or iodite 1 9. Method of claim No. 1, where the water mixtures are as Said it also contains a second forming agent that At least one hydrophobic group, where if the second forming auxiliary agent has a hydrophobic group, One group already, such hydrobotic group will be a group Hydrocarbons or haloalkyls containing 6 to 22 carbon atoms, and where, if the second forming auxiliary agent has A variety of hydrophobic groups, each group Such hydrophobic is a group of hydrocarbons or Halo alkyl with more than 2 carbon atoms, where the diversity of the hydro class The phobic has a total of about 12 to about 40 carbon atoms, 2 0. Method of claim 19, where the first such additive is a liposome-based substance. And the second forming auxiliary agent is a quaternary, hammonium, or a mixture of such compounds 2 1. Method of claim 20, where the ammonium quaternary compound is formulated where R8 refers to the hydrophobic and hydrocarbons or Halo alkyl with carbon from about 6 to about 22 atoms; W and Y, which are independent, are O or NH: a and b are independent, 0 or 1, but at least one of a and b is 1: X. The CO, SO, or SO2: n groups are 2 to 4; R9, R10 and R11 are independent, C1-4 alkyl groups; And T is the appropriate anion 2 2. The method of claim 21, where R8 is a hydrocarbon group and has approximately 12 to approximately 18 carbon atoms 2 3. Method of claim 21, where R8 is added fluorine group 2 4. Method of claim 21, where R8 is added to the perfluorine group 2 5. Method of claim 24, where R8 contains about 6 to approximately 12 carbon atoms 2 6. The method of claim 21, where T was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 2 7. Method of claim 21, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxide, chloride, bromide iodite, sulfate, phosphate and acetate 2 8. The method of claim 27, where X is a group SO2 n is 3, and T is a group of chlorite, bromite or iodite 2 9. Method of claim 19, where the first forming additive is a liposome-based substance. And the second such additive is a compound. Or mixtures of compounds with the formula (chemical formula) where R14 is the hydrophobic group, R15 is the C1-5 alkyl group and A is the O or NH 3 0. Method of claim 19, where the first such additive is a lyophilized substance. And the aforementioned second forming auxiliaries are compounds Or a mixture of compounds with the formula (chemical formula) where R14 is a hydrocarbon group with approximately 5 to approximately 21 carbon atoms, R15 is a hydrocarbon group of approximately 1 to approximately 14 atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27: and A is O or NH 3 1. The method of claim 30, where R14 has 11 to approximately 21 carbon atoms; R15 contains about 1 to approximately 6 carbon atoms; And A is O 3 2. Method of claim 31, where the second formulation aid is C1-4 alkyl ester of C12-18 3 3. Method of claim 31, where the second formulation aid is C1-4 alkyl ester of C12-18 3 4. Method of claim 30, where the secondary formulation additive is C1-4 alkyl isopropyl or butyl ester of fatty acid type. C12-18 3 5. Method of claim 30, where the second such auxiliary agent is butylstearate 3 6. Claim Method 1, where the first formulation auxiliary agent is an alkyl ether surfactant or a mixture of such surfactant formulated. (Chemical formula) where R12 is an alkyl group containing approximately 16 to approximately 22 carbon atoms, n is an average of 10 to approximately 100, m is an average of 0 to approximately 5, and R12 is hydrogen. Or moo C1-4 alkyl 3 7. Method for claim 36, where m is 0 and R18 is hydrogen 3 8. The method of claim 36, where n is from approximately 20 to approximately 40 3 9. Method of claim 37, where R12 is a saturated alkyl group of the right molecular arm 4 0. Method of claim No. 39, where such alkyl ether surfactants are Chetyl or Stearyl ether or a mixture of such substances 4 1. Method of claim 36, which also contains The second forming auxiliary consists of a compound or a mixture of compounds with the formula (chemical formula) where R14 is a hydrocarb group with approximately 5 to approximately 21 carbon atoms; R15 is a hydrocarbon group containing approximately 1 to approximately 14 carbon atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27; And A is O or NH 4 2. The method of claim 41, where R14 has 11 to approximately 21 carbon atoms; R15 contains about 1 to approximately 6 carbon atoms; And A is O 4 3. Method of claim 42, where the second formulation aid is C1-4 alkyl ester of C12-18 4 4. Method of claim 42, where the second formulation aid is C1-4 alkyl ester of C12-18 4 5. Method of claim 42, whereby the secondary formulation agent is C1-4 alkyl isopropyl or butyl ester of fatty acid type. C12-18 4 6. Method of claim 42, where the second such additive is butyl stearate 4 7. Claim method # 1, where the first forming additive has a critical packing parameter greater than 1/3 4 8. Method of claim No. 1, where the first additive will form the mass in the solution. Water or in a solution dispersed the suspension Which most of the substances Such is not a normal micelle 4 9. Method of claim No. 1, where Chemicals X Sogenius is an exogenous chemical that is used on plant leaves 5 0. Method of claim No. 49, where Chemical Ex Sogenius is a pesticide and pesticide, Building germ cells Or plant growth regulators 5 1. Method of claim No. 50, where Chemical Ex Sogenius is herbicide, roundworm / gut remover or plant growth regulator 5 2. Method of Clause 51, where Chemical Ex Sogenius is a herbicide 5 3. The method of claim 52, where the vascular agent was chosen from among the containing acitanilate, bierikyl, schlohausenone, dinitroaniline. , Diphenyl ether, fatty acids, hydroxybenzonitrile, imidazolinone, phenoxy, phenoxypropionate, urea with displacement group, sulf Phonylurea, thiocarbamate, dryasine 5 4. The method of claim 52, where the vasicides are selected from among containing acetochlor, alachlor, metolachlor, aminotriaso, azula. M, Bentazon, Baalaphos, Diquat, Paraguat, Bromacil, Clezodim, Sethoxikim, Dikamba, Diphenican, Dinitroaniline, Asifluorfen, Fomezafen, Oxyfluorfen Fatty Acids C9-10 Phosamine, Fluoposam, Glufo Sinate, glyphosate, bromosinil, imasquin, imasetafir, isosaben, norfurazon, 2,4-D, dicloop , Fluasifop, calfuron, pycolram, propanyl, fluomethuron, isoproturon, chlorimuron, closulfuron, Halosulfuron, Methsulfuron, Primisulfuron, Sulfomethuron, Sulfosulfuron, Triallate, Atrazine, Metri Buzin, triclopir and its herbicide derivatives 5 5. The method of claim 54, where the vajectoid is glyphosate. Or derivatives that kill the weeds of such substances 5 6. Methodology of claim 55, where the vajectoid is glyphosate in its acid form 5 7. Method of Clause 51, where Chemical Ex Sogenius is soluble in water 5 8. Method of claim No. 57, where Chemical Ex So genius is a salt with an anion and a cation fraction 5 9. Method of claim 58, where at least one portion of the said anion and cation is They are biologically sensitive and have a molecular weight of approximately less than 300 6 0. Method of claim No. 57, where Chemical Ex Sogenius is a paravat or a divavat 6 1. Method of claim No. 59, where Chemical Ex Sogenius has demonstrated systematic biological efficacy in plants 6 2. Method of claim No. 61, where Chemical Ex Sogenius has one or more functional groups that Choose from a group containing amine, ammetcarboxylate, phosphonate and phosphenate 6 3. Method of claim No. 62, where Chemical X So genius is an acid salt. 3,4,4-drive fluoro-3-butenoic acid of N- (3) 4) 4-drive fluoro-1-oxo-3-buty Nil) Glycine, which has been shown to be effective in eliminating roundworms / infants 6 4. Method of claim No. 64, where Chemical Ex Sogenia is a herbicide or control compound. The growth of plants containing at least one group of each group of amine, carboxylate and, if not, phosphophosphate. The net is a phosphinate group that is a function group 6 5. Method of claim 64, whereby herbicides Or plant growth regulating compound is a salt of glutphosinate 6 6. Method of claim 65, where the gluco salt Sinate is ammonium salt 6 7. Methodology of claim 64, where the vasicides or plant growth regulators are salts of N-phosphonomethyl glycans 6 8. Method of claim 67, where N-Phosphonomethyl Glycine salts are selected from the group containing Sodium salt, potassium, ammonium; Mono-1 Di-1 Tri- and Tetra-C1-4-Alkyl Ammonium; Mono-1 Di-1 and Tri-C1-4-Ammonium alkanol; Mono-1 Di-1 and Tri C1-4-Alkylsulfonium And sulfoxonium 6 9. Method of claim 68, where N-phosphonomethsyl glycine salts are ammonium, monisopropyl ammonium salts. Or trimethylsulfonium 7 0. Method of claim No. 1, where liquid-type mixtures Is composed of a complex of masses of molecules (supramclecule) of the first shaping auxiliaries, whose strands The average diameter at least 20 nm 7 1. Method of claim No. 1, where liquid-type mixtures Is composed of a complex of masses of molecules (supramclecule) of the first shaping auxiliaries, whose strands The average diameter of at least 30 nm 7 2. Method of claim 41, where liquid-type mixtures It is an emulsion consisting of an oil phase (phase, state) composed of a secondary formulation additive 7 3. Method of claim 72, where the emulsion is a multiphase emulsion that is water-in-oil-in-water 7 4. Method of claim 72, where the emulsion is a type of emulsion. Oil-in-water 7 5. Method of claim No. 1, where liquid-type mixtures On the varicose layer of the plant will cause or expand. The larger hydrophilic channels that pass through the outer surface of the plant shell, where these hydrophilic channels are capable of Exogenous chemicals can be transported more quickly or completely than the outer wax layer. Which is scarce, which contributes to the expansion or expansion of the channel Hydrophilic 7 6. Method of claim No. 1, where the mixture is In the form of micro domains (microdomain, microdomain) a type of water in or on the epidermis of plants, where the first forming auxiliary agent in that aqueous microdomain It appears as a bllayer or multilamellar structure 7 7. Claim Method 1, where Procedure (b) takes place simultaneously with Step (a) 7 8. Method of claim No. 77, where Chemical Ex Sogenius is contained in the aqueous mixture 7 9. Water-based mixtures for plant use in association with use Plant exogenous chemicals, which include: (a) first amphiphilic formulation additive, and (b) least available second forming additive. One hydrophobic group, where if the supplement helps In this second form there is already one hydrophobic group, the hydrophobic group is the hydrocarbium. Or halo alkyl with 6 to 22 carbon atoms, and where, if this second forming additive has a wide variety of Hydrophobic group, each of these hydrophobic groups has It is a hydrocarbyl group or halo alkyl with more than 2 carbon atoms, where the diversity of the hydrophobic group is It has a total of about 12 to about 40 carbon atoms; Where the weight-to-weight ratio of the forming additive The first one against Exogenous chemicals was between approximately 1: 3 and approximately 1: 100; Which the famous liquid mixture That said, it will produce anisotropic matter. (anisotropic) in or on the layer 8 0. Mixture of claim 79, where the first formulation additive is a liposome-containing compound. With compounds such as amphiphilic or a mixture of such compounds Said with hydrophobic There are two classes of hydrophobic (hydrophobic, not water), each of which is a group. Saturated hydrocarbons containing carbon from approximately 7 to approximately 21 atoms; Where amphiphilic compounds or mixtures of substances These contain two types of hydrophobic. Are comprised of approximately 40 to 100% by weight of the substance. Contains all the amphiphilicts that contain two hydrophilic classes. It appears in substances in the form of the aforementioned liposomes 8 1. Mixture of claim 80, where the substance in the form of the said liposome has a hydrophilic head group. (hydrophilic, like in combination with water) consisting of an ionic cat group 8 2. Mixture of claim 81, where the ionic cat group That is the Ammine group 8 3. Mixture of claim 79, wherein the first forming adjuvant containing a substance in the form of a liposome There are hydrophobics, which consist of two hydrocarbons. The saturated or unsaturated R1 and R2 with each group having approximately 7 to approximately 21 carbon atoms, where the compound in the aforementioned liposome form, at the pH of which is 4, There is a formula selected from a group consisting of: (a) (chemical formula) where R3 and R4 are independent, hydrogen, C1-4 alkyl or C1-4 hydroxy groups. Alkyls and Z are suitable anions: (b) (chemical formula) where R5, R6 and R7 are independent, hydrogen, C1-4 alkyl group or C1-4 hydroxyl group. The roxy alkyl and Z are suitable anions (c) (chemical formula) where R5, R6, R7 and Z are the groups as defined above and (d) (chemical formula) where R5, R6. And R7 is the group, as defined above, 8 4. Mixture of claim 83, where Z was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 8 5. Mixture of claim 84, where R1 and R2, which are independent of each other, are straight arm-type saturated alkyl groups. Each group has between 7 and about 21 carbon atoms, 8 6. Mixture of claim 83, where the first forming additive is a phospholipic selected from the Which consists of Di-c8-22 alkanoyl phosphatikylcholine and C8-22 alkanoyl phosphatikyl ethanolamine 8 7. Mixture of claim 86, where the first forming additive was a phosphatikyl dipalmitoyl or diastearyl ester. Choline Or a mixture of such substances 8 8. Mixture of claim 79, where the first formulation additive is a quaternary ammonium compound or a mixture of such compound containing Hydrophobic, which is a saturated alicl or halo alkyl group that There are about 6 to about 22 carbon atoms, 8 9. Mixture of claim 88, where the first such additive is formulated (chemical formula) where R8 refers to the hydropholic and hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 9 0. Mixture of claim 89, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 9 1. Mixture of claim 89, where R8 is added to the fluorine group 9 2. Mixture of claim 89, where R8 is added to the perfluorine group 9 3. Mixture of claim 92, where R8 contains about 6 to approximately 12 carbon atoms 9 4. Mixture of claim 89, where T was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 9 5. Mixture of claim 89, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxides, chlorides, bromide iodites, sulfates, phosphates and acetates. 9 6. Mixture of claim 95, where X is group SO2 n is 3, and T is group of chlorite, bromite or iodite 9 7. Mixture of claim 79, where the aforementioned secondary formulation has a wide variety of hydrophobic groups, each of these hydrophobic groups is Hydrocarbons or haloalkyl groups with more than 2 carbon atoms, where the variety of hydrophobic groups is That said, it has a total of about 12 to about 40 atoms of carbon 9 8. Mixture of claim 79, where the first forming additive is a liposome-based substance. And the second forming auxiliary agent is an ammonium quaternary compound or a mixture of such compounds 9 9. Mixture of claim 98, where the quaternary ammonium compound has the formula (chemical formula) where R8 refers to the hydropholic and hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 10 0. Mixture of claim 99, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 10 1. Mixture of claim 99, where R8 is added to the fluorine group 10 2. Mixture of claim 99, where R8 is added to the perfluorine group 10 3. Mixture of claim 102, where R8 contains approximately 6 to approximately 12 carbon atoms 10 4. Mixture of claim 99, where T was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 10 5. Method of claim 99, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxide, chloride, bromide iodite, sulfate, phosphate and acetate 10 6. Mixture of claim 105, where X is group SO2 n is 3, and T is group of chlorite, bromite or iodite 10 7. Mixture of claim 79, where the first forming additive is a liposome-based substance. And the aforementioned second forming auxiliaries are compounds Or mixtures of compounds with the formula (chemical formula) where R14 is the hydrophobic group, R15 is the C1-8 alkyl group and A is the O or NH 10 8. Mixture of claim 79, where the first forming additive is a liposome-based substance. And the aforementioned second forming auxiliaries are compounds Or a mixture of compounds with the formula (chemical formula), where R14 is a hydrocarbon group with approximately 5 to approximately 21 carbon atoms; R15 is a hydrocarbon group containing approximately 1 to approximately 14 carbon atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27; And A is O or NH 10 9. Mixture of claim 108, where R14 has 11 to approximately 21 carbon atoms, R15 has approximately 1 to approximately 6 carbon; And A is O 11 0. Mixture of claim 109, where the second formulation aid is C1-4 Allic ester of fatty acid type C12-18 11 1. Mixture of claim 108, wherein the second formulation aid is C1-4 alkyl ester of saturated fatty acids type C12-18 11 2. Mixture of claim 108, where the second formulation additive is propyl, isopropyl or butyl ester of C12-18 fatty acid type. 11 3. Mixture of claim 108, wherein the second formulation aid is Butyl stearate 11 4. Mixture of claim 79, where the first formulation additive is an allic ether surfactant or a mixture of said surfactant formulated ( (Chemical formula) where R12 is an alkyl group containing approximately 16 to approximately 22 carbon atoms, n is an average of 10 to approximately 100, m is an average of 0 to approximately 5, and R13 is hydrogen or Group C1-4 alkyl 11 5. Mixture of claim 114, where m is 0 and R13 is hydrogen 11 6. Mixture of claim 114, where n is from approximately 20 to approximately 40 11 7. Mixture of claim 115, where R12 is a straight-armed alkyl group 11 8. Mixture of claim 117, where alkyl ether surfactant is Cetyl or stearyl ether or a mixture of such substances 11 9. Mixture of claim 114, which also contains Second forming auxiliaries consisting of compounds or mixtures of compounds with the formula (chemical formula) where R14 is a hydrocarbon group with approximately 5 to approximately 21 carbon atoms; R15 is a hydrocarbon group containing approximately 1 to approximately 14 carbon atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27; And A is O or NH 12 0. Mixture of claim 119, where R14 has 11 to approximately 21 carbon atoms, R15 has approximately 1 to approximately 6 carbon; And A is O 12 1. Mixture of claim 120, where the second formulation aid is C1-4 Allic ester of fatty acid type C12-18 12 2. Mixture of claim 120, where the second formulation aid is C1-4 alkyl ester of saturated fatty acids type C12-18 12 3. Mixture of claim 120, where the aforementioned secondary formulation additives are propyl, isopropyl or butyl ester of C12-18 fatty acid type. 12 4. Mixture of claim 120, where the second formulation aid is Butyl stearate 12 5. Mixture of claim 79, where the first forming additive has a critical packing parameter greater than 1/3 12 6. Mixture of claim 79, where the first additive will form a mass in a solution. Water or in a solution dispersed the suspension Which most of the substances This is not a normal micelle 12 7. Mixture of Clause 79, where Chemical Ex Sogenius is an exogenous chemical that is applied to plant leaves 12 8. Mixture of claim 79, where a liquid-type mixture Is composed of a complex of masses of molecules (supramclecule) of the first shaping auxiliaries, whose strands At least 20 nm average diameter 12 9. Mixture of claim 79, where a liquid-type mixture Is composed of a complex of masses of molecules (supramclecule) of the first shaping auxiliaries, whose strands The average diameter of at least 30 nm 13 0. Mixture of claim 119, where the aqueous mixture is an emulsion consisting of an oily phase (phase, state) composed of a second formulation additive 13. 1. Mixture of claim 130, where the emulsion is a multiphase emulsion that is water-in-oil-in-water 13 2. Mixture of claim 130, where the emulsion is a type of emulsion Oil-in-water 13 3. Mixture of claim 79, where a liquid-type mixture On the varicose layer of the plant will cause or expand. The larger hydrophilic channels that pass through the outer surface of the plant shell, where these hydrophilic channels are capable of Exogenous chemicals can be transported more quickly or completely than the outer wax layer. Which is scarce, which contributes to the expansion or expansion of the channel Such hydrophilis 13 4. Mixture of claim 79, where the mixture is In the form of micro domains (microdomain, microdomain) a type of water in or on the epidermis of plants, where the first forming auxiliary agent in that aqueous microdomain They appear as a bllayer or multilamellar structure. 13 5. Plant treatment mixtures consisting of (a) exogenous chemicals and (b) first amphiphilic formaldehyde; Where the weight-to-weight ratio of the forming additive The first one against Exogenous chemicals was between approximately 1: 3 and approximately 1: 100; Which the famous liquid mixture That said, it will produce anisotropic matter. (anisotropic) in or on the layer 13 6. Mixture of claim 135, which also contains An effective amount of water to make the mixture a substance Mix the diluted liquid ready for use to plant leaves 13 7. Mixture of claim 135, where the mixture is a lifetime stable concentrate consisting of a Exoconian chemicals in the amount of approximately 15 to 90% by weight 13 8. Mixture of claim 137, where the mixture is a solid mixture containing exogenius chemicals. About 30 to approximately 90% by weight 13 9. Mixture of claim 138, where the mixture is a water-soluble granular formula. Or spreading, hanging, floating in water 14 0. Mixture of Claim 137, which also contains Liquid diluent, in which the mixture contains Exogenius chemicals in the amount of approximately 15 to about 60% by weight 14 1. Mixture of claim 140, where exogenous chemicals are soluble in water and present in the aqueous phase. Of mixture in the amount of approximately 15 to approximately 45% by weight of the mixture 14 2. Mixture of claim 141, where the mixture is a concentrated aqueous solution 14 3. Mixture of claim 141, where the mixture is an emulsion with an oil phase 14 4. Mixture of claim 143, where the mixture is a type of emulsion Oil-in-water 14 5. Mixture of claim 143, where the mixture is a type of emulsion Water-in-oil 14 6. Mixture of claim 143, where the mixture is a multiphase emulsion. Water-in-oil-in-water 14 7. Mixture of claim 141, which also contains Inorganic solid suspension particles 14 8. Mixture of claim 138, where the mixture is composed of a complex molecular group. (supramolecule) of the first co-extrusion auxiliaries, whose strands At least 20 nm average diameter 14 9. Mixture of claim 136, where the aqueous mixtures are composed of a complex molecular group. (supramclecule) of the first shaping auxiliaries, whose strands The average diameter of at least 30 nm 15 0. Mixture of claim 135, where the aqueous mixture on the cortical layer of the plant forms Causing or enlarging the hydrophilic channel through which The outer surface of the plant crust, where these hydrophilic channels Has the ability to transport chemicals into exogynias In plants more quickly Or more completely A deficient outer layer of cyst where the formation or expansion To enlarge the aforementioned hyaluronic channel 15 1. Mixture of claim 135, where the aqueous mixture in or on the cortical layer of the plant will cause Birth (microdemain, micro-boundary) type of water, in which the first such forming auxiliaries. The aquifer appears as a bilayer or multilamellar structure 15 2. Mixture of claim 135, where the first formulation additive is a substance in the form of a liposome that contains With compounds such as amphiphilic or a mixture of such compounds Said with hydrophobic There are two classes of hydrophobic (hydrophobic, not water), each of which is a group. Saturated hydrocarbons containing carbon from approximately 7 to approximately 21 atoms; Where amphiphilic compounds or mixtures of substances These contain two types of hydrophobic. Are comprised of approximately 40 to 100% by weight of the substance. Contains all the amphiphilicts that contain two hydrophilic classes. It appears in substances in the form of the aforementioned liposomes 15 3. Mixture of claim 152, where the substance in the form of the said liposome has a hydrophilic head group. (hydrophilic, like in combination with water) consisting of an ionic cat group 15 4. Mixture of claim 153, where the ionic cat group is amine group 15 5. Mixture of claim 135, where the first forming additive contains a substance in the form of a liposome There are hydrophobics, which consist of two hydrocarbons. The saturated or unsaturated R1 and R2 with each group having approximately 7 to approximately 21 carbon atoms, where the compound in the aforementioned liposome form, at the pH of which is 4, There is a formula selected from a group consisting of: (a) (chemical formula) where R3 and R4 are independent, hydrogen, C1-4 alkyl or C1-4 hydroxy groups. Alkyls and Z are suitable anions: (b) (chemical formula) where R5, R6 and R7 are independent, hydrogen, C1-4 alkyl group or C1-4 hydroxyl group. The roxy alkyl and Z are suitable anions (c) (chemical formula) where R5, R6, R7 and Z are the groups as defined above and (d) (chemical formula) where R5, R6. And R7 is the group, as defined above, 15 6. Mixture of claim 135, where Z was chosen from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and acetates 15 7. Mixture of claim 156, where R1 and R2, which are independent, are straight molar saturated alkyl groups, each containing approximately 7 to approximately 21 carbon atoms 15 8. Mixture of claim 155, where the first formulation additive was a phospholipic of choice from the Which consists of Di-C8-22 alkanoyl phosphatikylcholine and C8-22 alkanoyl phosphatikyl ethanolamine 15 9. Mixture of claim 158, where the first forming additive was a phosphatikyl dipalmitoyl or diastearyl ester. Choline Or a mixture of such substances 16 0. Mixture of claim 135, where the first such additive is an ammonium quaternary compound or a mixture of such compound containing Hydrophobic, which is a saturated alicl or halo alkyl group that There are about 6 to about 22 carbon atoms 16 1. Mixture of claim 160, where the first such additive is formulated (chemical formula) where R8 refers to the hydropholic and hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 16 2. Mixture of claim 161, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 16 3. Mixture of claim 161, where R8 is added to the fluorine group 16 4. Mixture of claim 161, where R8 is added to the perfluorine group 16 5. Mixture of claim 164, where R8 contains approximately 6 to approximately 12 carbon atoms 16 6. Mixture of claim 161, where T was chosen from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and acetates 16 7. Mixture of claim 161, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxides, chlorides, bromide iodites, sulfates, phosphates and acetates. 16 8. Mixture of claim 167, where X is group SO2 n is 3, and T is chlorite group, bromite or iodite 16 9. Mixture of claim 135, where the aforementioned secondary formulation has a wide variety of hydrophobic class, each of these hydrophobic groups is Hydrocarbons or haloalkyl groups with more than 2 carbon atoms, where the variety of hydrophobic groups is That said, it has a total of about 12 to about 40 atoms of carbon 17 0. Mixture of claim 169, where the first forming additive is a liposome-based substance. And the second forming auxiliary agent is quaternary ammonium compound or a mixture of such compounds 17 1. Mixture of claim 170, where the quaternary ammonium compound has the formula (chemical formula) where R8 refers to the hydropholic and hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 17 2. Mixture of claim 171, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 17 3. Mixture of claim 171, where R8 is added to the fluorine group 17 4. Mixture of claim 171, where R8 is added to the perfluorine group 17 5. Mixture of claim 174, where R8 contains about 6 to approximately 12 carbon atoms 17 6. Mixture of claim 171, where T was chosen from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and acetates 17 7. Method of claim No. 171, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxides, chlorides, bromide iodites, sulfates, phosphates and acetates. 17 8. Mixture of claim 177, where X is group SO2 n is 3, and T is group of chlorite, bromite or iodite 17 9. Mixture of claim 169, where the first forming additive is a liposome-based substance. And the aforementioned second forming auxiliaries are compounds Or mixtures of compounds with the formula (chemical formula) where R14 is the hydrophobic group, R15 is the C1-8 alkyl group and A is the O or NH 18 0. Mixture of claim 169, where the first forming additive is a liposome-based substance. And the aforementioned second forming auxiliaries are compounds Or a mixture of compounds with the formula (chemical formula), where R14 is a hydrocarbon group with approximately 5 to approximately 21 carbon atoms; R15 is a hydrocarbon group containing approximately 1 to approximately 14 carbon atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27; And A is O or NH 18 1. Mixture of claim 180, where R14 has 11 to approximately 21 carbon atoms, R15 has approximately 1 to approximately 6 carbon; And A is O 18 2. Mixture of claim 181, where the second formulation aid is C1-4 alkyl ester of saturated fatty acids type C12-18 18 3. Mixture of claim 180, where the aforementioned auxiliary additives are propyl, isopropyl or butyl ester of fatty acid type C12-18. 18 4. Mixture of claim 180, where the aforementioned auxiliary additives are propyl, isopropyl or butyl ester of fatty acid type C12-18. 18 5. Mixture of claim 180, where the second formulation aid is Butyl stearate 18 6. Mixture of claim 180, where the first formulation additive is an allic ether surfactant or a mixture of such surfactant formulated ( (Chemical formula) where R12 is an alkyl group containing approximately 16 to approximately 22 carbon atoms, n is an average of 10 to approximately 100, m is an average of 0 to approximately 5, and R13 is hydrogen or Group C1-4 Alkyl 18 7. Mixture of claim 186, where m is 0 and R13 is hydrogen 18 8. Mixture of claim 186, where n is approximately 20 to approximately 40 18 9. Mixture of claim 187, where R12 is a saturated alkyl group with a straight molecular arm 19 0. Mixture of claim 189, where alkyl ether surfactant is Cetyl or Stearyl ether or a mixture of such substances 19 1. Mixture of claim 186, which also contains Second forming auxiliaries consisting of compounds or mixtures of compounds with the formula (chemical formula) where R14 is a hydrocarbon group with approximately 5 to approximately 21 carbon atoms; R15 is a hydrocarbon group containing approximately 1 to approximately 14 carbon atoms; The total number of carbon atoms in R14 and R15 is approximately 11 to approximately 27; And A is O or NH 19 2. The mix of claim 191, where R14 has 11 to approximately 21 carbon atoms, R15 has approximately 1 to approximately 6 carbon; And A is O 19 3. Mixture of claim 192, where the second formulation aid is C1-4 Allic ester of fatty acid type C12-18 19 4. Mixture of claim 192, where the second formulation aid is C1-4 alkyl ester of C12-18 type saturated fatty acids 19 5. Mixture of claim 192, where the second formulation additive is propyl, isopropyl or butyl ester of C12-18 fatty acid type. 19 6. Mixture of claim 192, where the second formulation aid is Butyl stearate 19 7. Mixture of claim 135, where the first forming additive has a critical packing parameter greater than 1/3 19 8. Mixture of claim 135, where the first additive will form a mass in a solution. Water or in a solution dispersed the suspension Which most of the substances This is not a normal micelle 19 9. Mixture of claim 135, where exogenous chemicals are exogenous chemicals applied to plant leaves 20 0. Mixture of claim 199, where exogenous chemicals are pesticides and infestations, gametes stimulants. Or plant growth regulators 20 1. Mixture of claim 200, where exogenous chemicals are herbicides, roundworms / earthworms or plant growth regulators 20 2. Mixture of claim 201, where exogenous chemicals are herbicides 20 3. Mixture of claim No. 202, where the vasicides were chosen from among those containing acitaniolic, biperidil, zide colhexenone, dinitroanili. Amine, diphenyl ether, fatty acid, hydroxybenzonitrile, imidazolinone, phenoxy, phenoxypropionate, urea with substitution group, s Lfonyl urea, thiocarbamate, dryazine 20 4. Mixture of claim No. 202, where the vasicides were selected from among containing acetochlor, alachlor, metolachlor, aminotriaso, azula. M, Bentazon, Baalaphos, Diquat, Paraguat, Bromacil, Clezodim, Sethoxikim, Dikamba, Diphenican, Dinitroaniline, Asifluorfen, Fomezafen, Oxyfluorfen Fatty Acids C9-10 Phosamine, Fluoposam, Glufo Sinate, glyphosate, bromosinil, imasquin, imasetafir, isosaben, norfurazon, 2,4-D, dicloop , Fluasifop, calfuron, pycolram, propanyl, fluomethuron, isoproturon, chlorimuron, closulfuron, Halosulfuron, Methsulfuron, Primisulfuron, Sulfomethuron, Sulfosulfuron, Triallate, Atrazine, Metri Buzin, triclopir and its herbicide derivatives 20 5. Mixture of claim 204, where the herbicide is glyphosate. Or derivatives that kill the weeds of such substances 20 6. Mixture of claim 205, where the herbicide is glyphosate in its acid form 20 7. Mixture of claim 201, where exogenous chemicals are soluble in water 20 8. Mixture of claim 207, where exogenous chemicals are salts with anionic content and Cation parts 20 9. Mixture of claim 208, where at least one portion of the anion and cation is They are biologically sensitive and have a molecular weight of approximately less than 300 21 0. Mixture of claim 209, where exogenous chemicals are parquat or diquat 21 1. Mixture of claim 209, where Chemical Ex Sogenius has demonstrated systematic biological efficacy in plants 21 2. Mixture of claim 211, where exogenous chemicals have one or more functional groups. Selected from a group consisting of amine, ammetcarboxylate, phosphonate and phosphonate 21 3. Mixture of claim 212, where exogenous chemicals are acid salts. 3,4,4-drive fluoro-3-butenoic acid of N- (3) 4) 4-drive fluoro-1-oxo-3-buty Nyl) Glycine, which has been shown to be effective in eliminating helminths. Round body / month filling 21 4. Mixture of claim 212, where exogenous chemicals are herbicides or controlled compounds. The growth of plants with at least one group of but Each group of amines, carboxylates and if not A phosphonate group is also a functional phosphenate group. 21 5. Mixture of claim 214, where Plants or plant growth regulators are salts. Of Gludfosinate 21 6. Mixture of claim 215, where the glucosinate salt is ammonium salt 21 7. Mixture of claim 214, where Vajidisides or Plant Growth Regulators are salts of N-Phosphonomethyl Glycans 21 8. Mixture of claim 217, where N-Phosphonomethyl Glycine salts are selected from the group containing Sodium salt, potassium, ammonium; Mono-1 Di-1 Tri- and Tetra-C1-4-Alkyl Ammonium; Mono-1 Di-1 and Tri-C1-4-Ammonium alkanol; Mono-1 Di-1 and Tri C1-4-Alkylsulfonium And sulfoxonium 21 9. Mixture of claim 218, where N-phosphonomethsyl glycine salts are ammonium, monisopropyl ammonium salts. Or trimethyl sulfonium 22 0. Mixture of claim 135, where the aqueous mixtures are composed of a complex molecular group. (supramclecule) of the first shaping auxiliaries, whose strands The average diameter at least 20 nm 22 1. Mixture of claim 135, where the aqueous mixtures are composed of a complex molecular group. (supramclecule) of the first shaping auxiliaries, whose strands The average diameter of at least 30 nm 22 2. Mixture of claim 191, where the aqueous mixture is an emulsion consisting of an oily phase (phase, state) composed of a second formulation additive 22. 3. Mixture of claim 222, where the emulsion is a multiphase emulsion that is water-in-oil-in-water 22 4. Mixture of claim 222, where the emulsion is a type of emulsion Oil-in-water 22 5. Mixture of claim 135, where the aqueous mixture on the cortical layer of the plant forms Causing or enlarging the hydrophilic channel through which The outer surface of the plant crust, where these hydrophilic channels Has the ability to transport chemicals into exogynias In plants more quickly Or more completely A deficient outer layer of cyst where the formation or expansion To enlarge the aforementioned hyaluronic channel 22 6. Mixture of claim 135, where the aqueous mixture in or on the cortical layer of the plant will cause Birth (microdemain, micro-boundary) type of water, in which the first such forming auxiliaries. Round water appears as a bilayer or multilamellar structure 22 7. Plant treatment methods, which consist of stages of exposure Plant leaves with bioavailability quantity of aqueous mixtures. It contains: (a) exogenous chemicals and (b) the first amphiphilic formulation additive. (amphiphilic) in which the weight-to-weight ratio of the forming additives The first one against Exogenous chemicals was between approximately 1: 3 and approximately 1: 100; Which the famous liquid mixture That said, it will produce anisotropic matter. (anisotropic) in or on layer 22 8. The method of claim 227, which also includes An effective amount of water to make the mixture a substance Mix the diluted liquid ready for use into the leaves 22 9. Method of claim 227, where the mixture is a lifetime stable concentrate consisting of Exogenius chemicals in the amount of approximately 15 to 90% by weight 23 0. Method of claim 229, where the mixture is a solid mixture containing exogenous chemicals. In quantities about 30 to about 90% by weight 23 1. Method of claim 230, where the mixture is a water-soluble granular formula. Or spread, hang and float in water 23 2. The method of claim 229, which also includes Liquid diluent, in which the mixture contains Exogenous chemicals in the amount of approximately 15 to about 60% by weight 23 3. Method of claim 232, where exogenous chemicals are soluble in water and present in a Approximately 15 to 45% water by weight of the mixture 23 4. Method of claim 233, where the mixture is a concentrated aqueous solution 23 5. Method of claim 233, where the mixture is an oil phase emulsion 23 6. Method of claim 235, where the mixture is an emulsion type. Oil-in-water 23 7. Method of claim 235, where the mixture is an emulsion type. Water-in-oil 23 8. Method of claim 235, where the mixture is a multiphase emulsion. Water-in-oil-in-water 23 9. The method of claim 233, which also includes Inorganic solid suspension particles 24 0. The method of claim 228, where the mixture is composed of a complex molar group. (supramolecule) of the first co-extrusion auxiliaries, whose strands The average diameter at least 20 nm 24 1. The method of claim 228, where the mixture is composed of a complex molar group. (supramolecule) of the first co-extrusion auxiliaries, whose strands The average diameter of at least 30 nm 24 2. Method of claim 227, where the aqueous mixture on the cortical layer of plants is Causing or enlarging the hydrophilic channel through which The outer surface of the plant crust, where these hydrophilic channels Has the ability to transport chemicals into exogynias. In plants more quickly Or more completely A deficient outer layer of cyst where the formation or expansion To enlarge the aforementioned hyaluronic channel 24 3. Method of claim 227, where the aqueous mixture in or on the cortical layer of the plant will cause Birth (microdemain, micro-boundary) type of water, in which the first such forming auxiliaries. The aquifer appears as a bilayer or multilamellar structure 24 4. Method of claim 227, whereby the first formulation additive is a substance in the form of a liposome. Contains amphiphilic compounds or mixtures of compounds. Such that contain hydrophobic There are two classes of hydrophobic (hydrophobic, not water), each of which is a group. Saturated hydrocarbons containing carbon from approximately 7 to approximately 21 atoms; Where amphiphilic compounds or mixtures of substances These contain two types of hydrophobic. Are comprised of approximately 40 to 100% by weight of the substance. Contains all the amphiphilicts that contain two hydrophilic classes. It appears in the substance in the form of the liposome 24 5. Method of claim 244, where the substance in the form of such liposome has a hydrophilic head group. (hydrophilic, like in combination with water) consisting of an ionic cat group 24 6. Method of claim No. 245, where the ionic cat group is the Ammine group 24 7. Method of claim 227, whereby the first forming adjuvants containing liposomes in the form of substances. With a hydrophobic group consisting of two hydrocarbons The saturated or unsaturated groups are R1 and R2 where each group has approximately 7 to approximately 21 carbon atoms, where the lyposome compound, at the pH / pH (pH ) To 4, there will be a formula selected from a group consisting of: (a) (chemical formula) where R3 and R4 are independent, hydrogen, C1-4 alkyl group or C1-4 hydroxyl group. The roxy alkyl and Z are suitable anions: (b) (chemical formula) where R5, R6 and R7 are independent, hydrogen, C1-4 alkyl group or C1-4 group. Hydroxy alkyl and Z are suitable anions (c) (chemical formula), where R5, R6, R7 and Z are groups as defined above and (d) (chemical formula) where R5. , R6 and R7 are groups as defined above 24 8. Method of claim 247, where Z was selected from among containing hydroxides, chlorides, bromides, iodites, sulfates, phosphates and acetates 24 9. The method of claim 248, where R1 and R2 are independent, are straight molar saturated alkyl groups, each containing approximately 7 to approximately 21 carbon atoms 25 0. Method of claim No. 247, where the first such additive was a phospholipic selected from A group consisting of Di-C8-22 alkanoyl phosphatikylcholine and C8-22 alkanoyl phosphatikyl ethanolamine 25 1. Method of claim 250, where the first formulation additive was a phosphatikyl dipalmitoyl or diastearyl ester. Choline Or a mixture of such substances 25 2. Method of claim 227, where the first such additive is an ammonium quaternary compound or a mixture of such compound containing the Hydrophobic, which is a saturated alicl or halo alkyl group that There are about 6 to about 22 carbon atoms 25 3. Method of claim 252, where the first such additive is formulated (chemical formula) where R8 refers to the hydropholic and hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 25 4. Method of claim 253, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 25 5. Method of claim 253, where R8 is added to the fluorine group 25 6. Method of claim 253, where R8 is added to the perfluorine group 25 7. Method of claim 256, where R8 contains about 6 to about 12 carbon atoms 25 8. Method of claim 253, where T was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 25 9. Method of claim 253, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was chosen from among containing hydroxides, chlorides, bromide iodites, sulfates, phosphates and acetates 26 0. The method of claim 259, where X is a group SO2 n is 3, and T is a group of chlorite, bromite or iodite 26 1. Method of claim 227, where there is a variant of the aforementioned second-forming auxiliaries in the hydrophobic class, each of these hydrophobic groups is Hydrocarbons or haloalkyl groups with more than 2 carbon atoms, where the variety of hydrophobic groups is That said, it has a total of about 12 to about 40 atoms of carbon 26 2. Method of claim 261, where the first formulation additive is a lipoprotein formulation. Soams and second forming auxiliaries are quaternary ammonium compounds or a mixture of such compounds 26 3. Method of claim 262, where the ammonium quaternary compound has the formula (chemical formula) where R8 refers to the hydropholic group and the hydro group. Carbills or halo alkyl with carbon from approximately 6 to approx. 22 atoms; W and Y, independent of each other, are O or NH: a and b which are independent, 0 or 1, however. At least Any one of such a and b will have a value of 1: X is a group CO, SO, or SO2: n is 2 to 4; R9, R10 and R11 are independent, C1. 4 alkyls; And T is the appropriate anion 26 4. Methodology of claim 263, where R8 is a hydrocarbon group and contains approximately 12 to approximately 18 carbon atoms 26 5. Method of claim 263, where R8 is added to the fluorine group 26 6. Method of claim 263, where R8 is added to the perfluorine group 26 7. Method of claim 266, where R8 contains about 6 to about 12 carbon atoms 26 8. Method of claim 263, where T was chosen from among containing hydroxide, chloride, bromide, iodite, sulfate, phosphate and acetate 26 9. Methodology of claim 263, where R8 is a saturated perfluol alkyl group containing approximately 6 to approximately 12 carbon atoms; X is a group of CO or SO2. Y is a group NH: a is 0, b is 1, R9, R10 and R11 are methyl group; And T was selected from among containing hydroxides, chlorides, bromide iodites, sulfates, phosphates and acetates 27 0. The method of claim 269, where X is a group SO2 n is 3, and T is a group of chlorite, bromite or iodite 27. 1. Method of claim 261, where the first such additive is a lipoprotein. Somes and second forming auxiliaries are compounds or mixtures of compounds with the formula (chemical formula), where R14 is the hydrophobic group, R15 is the C1-8 alkyl group, and A is O or NH 27 2. Cannot continue printing (325 claims, 39 pages, 0 pictures).