Patent Publication Number: US-4097396-A

Title: Soaps and detergents containing alpha-oxy(oxo)sulfides as perfumes

Description:
This application is a divisional of application for U.S. Pat. Ser. No. 723,534, filed on Sept. 15, 1976 now Pat. No. 4,065,408. 
    
    
     BACKGROUND OF THE INVENTION 
     There is a continuing search for materials having desirable fragrance properties. Such materials are sought either to replace costly natural materials or to provide new fragrances or perfume types which have not heretofore been available. Especially desirable qualities for substances having interesting hyacinth fragrances, or narcisse fragrances, or violet fragrances, or oriental vetivert fragrances, or otto of rose fragrances are stability and persistence, particularly in a wide variety of perfumed articles (e.g., soaps, detergents and powders), perfume compositions and colognes, ease of manufacture and intensity of aroma. 
     Prior to this last decade it was the general opinion among those skilled in the art that compounds containing the mercapto or -SH moiety or substituted mercapto or -SR moiety (where R is an organic group such as alkyl or acetyl) were not desirable for use in conjunction with fragrance materials and perfumed articles such as soaps, detergents and powders. However, within the last decade such compounds have been ascertained to be highly useful in perfumery. 
     Thus, for example, British Pat. Nos. 1,423,914 and 1,423,915 issued on Feb. 4, 1976, teach that certain mercapto derivatives which are aliphatic or cycloaliphatic compounds having the formula: ##STR4## wherein X 1  represents a hydroxyl group or an acyloxy group, and X 2  represents a hydrogen atom; R 1 , R 2 , R 3  and R 4  may be the same or different and each represents a hydrogen atom or a univalent aliphatic hydrocarbyl group; or R 1  and R 3  or R 4 , together with the intervening carbon atoms, constitute a cycloaliphatic ring, are useful as perfuming agents as exemplified by adding 3-methylthio-hexanol to a perfume base composition of the &#34;Fleuri&#34; type wherein the 3-methylthio-hexanol is said to give rise to a green, fruity aroma reminiscent of that of rhubarb. 
     Furthermore, for example, Canadian Pat. No. 983,050 issued on Feb. 3, 1976, teaches that 3,7-dimethyl-octa-2,6-dienyl-mercaptan (thiogeraniol) of the formula: ##STR5## is used in making up a &#34;synthetic buchu leaf oil&#34; and imparts to a lavender type composition a greener and more herbal fragrance. USSR Pat. No. 345,677 teaches that para-menthane-8-thiol-3-one is useful as a synthetic black current flavoring for foodstuffs. This compound has the structure: ##STR6## German Offenlegungschrift Pat. No. 2,316,456, published on Oct. 11, 1973 discloses the use of certain thiol alcohols or their corresponding esters in perfumery and in perfumed articles, such as detergents, cosmetics and waxes. Such mercapto alcohols having the generic structure: ##STR7## wherein R 1  is a hydrocarbon moiety having from 1 up to 7 carbon atoms and R 2  is one of hydrogen, methyl or ethyl. 
     U.S. Pat. Nos. 3,950,429 issued on Apr. 13, 1976, and 3,952,062 issued on Apr. 20, 1976, disclose certain alkylthiosubstituted oxo-terpenoids having 10 carbon atoms in the terpenoid skeleton as useful in perfumery and in flavors, particularly for providing vegetable notes. The generic structure of the compounds is as follows: ##STR8## wherein R 1  represents hydrogen or together with R 4  represents a C -- C bond, 
     R 2  represents hydrogen or together with R 6  represents a dimethylmethylene group, or, when R 6  is isopropyl, together with R 5  represents a C C bond, 
     R 3  represents hydrogen or together with R 6  represents a dimethylmethylene group, 
     R 4  represents hydrogen or together with R 1  represents a C C bond, 
     R 5  represents hydrogen or, when R 6  signifies isopropyl, together with R 2  represents a C C bond, 
     R 6  represents isopropyl or together with R 2  or with R 3  represents a dimethylmethylene group, 
     R 7  represents methyl, 
     X represents a C C double bond taking the place of a C C single bond, 
     m = 0 to 2, 
     Y represents oxo bound to a primary or secondary C-atom and Z represents mercapto or lower alkylthio located in the β-position to the carbonyl function, 
     provided that when R 2 , R 3  and R 5  represent hydrogen, R 6  represents isopropyl, R 4  together with R 1  represents a C C bond, Y is β to the carbon atom bearing the substituent R 7 , m= o, Z is α to the carbon atom bearing the substituent R 5  and β to the carbon atom bearing the substituent R 3 , then Z represents alkylthio. 
     However, none of the disclosure of the prior art contains a teaching to the effect that compounds having the generic structure: ##STR9## wherein R is one of methyl or hydrogen; X is one of ##STR10## and Y is one of methyl, methallyl having the structure: ##STR11## n-propyl, 2-methyl-1-propyl or acetyl, has the ability to create an intense sweet and/or green and/or floral and/or herbal and/or vegetative and/or basil-like and/or minty and/or melony and/or grapefruit and/or fruity and/or alliaceous aroma with yara and/or neroli and/or verdima nuances as is carried out using the instant invention. Furthermore, other substituted mercaptans in the prior art which are shown to be useful in perfumery and other mercaptans in the prior art which are shown to be useful in perfumery are indicated to have rhubarb-like or berry or other type floral fragrances, e.g., ionone and irone derivatives having the structure: ##STR12## as disclosed in British Pat. No. 1,327,320, published on Aug. 22, 1973, wherein one of the dashed lines represents a double bond, and where R is hydrogen or alkyl. 
     Certain α-oxomercaptoalkanes are disclosed in the prior art, but their uses in perfumery, in perfumed articles or in colognes are not disclosed. Thus, U.S. Pat. No. 3,773,524, issued on Nov. 20, 1973, discloses the use of α-ketothiols of the formula: ##STR13## wherein R 1  is methyl or ethyl; and R 2  and R 3  are hydrogen, methyl or ethyl to alter the meat flavor and aroma of foodstuffs. U.S. Pat. No. 3,892,878, issued on July 1, 1975, discloses the use of certain α-hydroxymercaptoalkanes to alter the flavor of foodstuffs, for example, 2-mercapto-3-butanol used in meat flavors. The genus disclosed by U.S. Pat. No. 3,892,878 is as follows: ##STR14## wherein X is oxygen or sulfur, n is 0 or 1, R 1  -R 7  are the same or different and each is hydrogen or lower alkyl of 1-4 carbon atoms, a and b are the same or different and each represents an integer of from 0 to 10 when n is 0 and when n is 1, a and b are the same or different and each represents an integer of from 1 to 10.3-mercaptoheptanone-4 is disclosed per se in U.S. Pat. No. 2,888,487, issued on May 26, 1959. 3-mercapto-2,6-dimethyl-heptan-4-one is disclosed in Chem. Abstracts 6478 (d) Vol. 62, 1965 (abstract of Asinger, Diem and Schaefer, Monatsh. Chem. 95 (4-5), 1335-54 (1964). Beilstein E-IV-1 discloses 2-mercapto-2,4-dimethyl-pentan-3-on page 4039, 1-mercapto-octan-2-on at page 4040; and 1-mercapto-nonan- 2-on at 4052 and 1-mercapto-undecan-2-one at page 4060. 
     U.S. Pat. No. 3,922,366 issued on Nov. 25, 1975, discloses the enhancement of foodstuffs by addition of a small but effective flavor modifying amount of a compound of the general formula: ##STR15## wherein R 1  is hydrogen or alkyl and R 2  is alkyl or furfuryl. The flavor nuances which are enhanced or altered are those which are found in coffee flavors and aromas. 
     THE INVENTION 
     The invention comprises novel compositions, perfumed articles and colognes containing α-oxy(oxo) sulfides having the structure: ##STR16## wherein X is one of: ##STR17## R is one of methyl or hydrogen and Y is one of methyl, methallyl having the structure: ##STR18## acetyl, 1-propyl or 2-methyl-1-propyl and processes for manufacturing such compositions, perfumed articles and colognes, the specific embodiments of which are described hereinafter by way of example and in accordance with which it is now preferred to practice the invention. 
     Briefly, the present invention provides the α-oxy(oxo) sulfides having the structure: ##STR19## in perfume and fragrance modifying, augmenting or enhancing materials and perfumed articles including soaps, detergents and powders as well as colognes. 
     Such α-oxy (oxo) sulfides are obtained by reacting an alkanone with SO 2  Cl 2  to form an α-chloroalkanone; reacting the α-chloroalkanone with an alkali metal mercpatide to form an α -substituted mercaptoalkanone which can be used for its perfumery properties; or, if desired, reacting the α-substituted mercaptoalkanone with a reducing agent such as an alkali metal borohydride in order to obtain an α-hydroxy-substituted mercaptoalkane. Thus, the aforementined reaction sequence is illustrated as follows: ##STR20## wherein Y is one of methallyl having the structure: ##STR21## methyl, 1-propyl, 2-methyl-1-propyl or acetyl; and R is one of methyl or hydrogen. 
     The reaction between the SO 2  Cl 2  and the ketone preferably takes place in the absence of a solvent at a temperature of between 15° C and 40° C. The SO 2  Cl 2  is preferably added to the ketone. At the end of the reaction the reaction mass is worked up, the chlorinated ketone being distilled in vacuo. 
     The resulting chlorinated ketone is reacted with an alkali metal mercaptide, preferably a sodium mercaptide, preferably which is pre-prepared by reaction of sodium methylate with the appropriate mercaptan in methanol. The chlorinated ketone is preferably contained in an inert solvent, e.g., in a methanolic solution. Preferably the methanolic solution of chlorinated ketone is slowly added to the pre-prepared alkali metal mercaptide at a temperature of between 0° C and 30° C; preferably between 15° C and 30° C. The reaction mass is then extracted with a solvent such as methylene chloride, and the resulting extract is then worked up using evaporation and distillation techniques whereupon the α-substituted mercaptoalkanone is recovered. The resulting α-substituted mercaptoalkanone is then used &#34;as is&#34; for its perfumery properties; or it may be further reacted with a reducing agent such as an alkali metal borohydride, conveniently sodium borohydride. The reaction with sodium borohydride takes place in an inert solvent such as anhydrous ethanol at a temperature of between 20° C and 35° C. A solution in anhydrous ethanol of the α-substituted mercapto-alkanone is added to a solution in anhydrous ethanol of the alkali metal borohydride. The reaction is carried out over a period of time between two and ten hours. At the end of the reaction the reaction mass is concentrated and is then admixed with water. The resulting mixture is then acidified to a pH of between 2 and 3 and then extracted with an inert extraction solvent such as methylene chloride. The methylene chloride extract is then dried, evaporated and the resulting α-substituted mercapto-alkanol is distilled in vacuo or isolated by GLC trapping. 
     Alternatively, the α-chloroketone may be reacted with an alkali metal hydrosulfide such as sodium hydrosulfide, NaHS, to form the corresponding α-mercaptoketone. The α-mercaptoketone may then be reacted with base (e.g., sodium methoxide) to form the alkali metal salt. The alkali metal salt of the α-mercaptoketone is then reacted with an alkyl or alkenyl halide (e.g., methallyl chloride) thereby forming the desired α-substituted mercaptoketoalkane which may then if desired be used as such for its organoleptic properties, or it can be reduced with the alkali metal borohydride to the corresponding α-substituted mercaptohydroxyalkane. This reaction sequence is illustrated as follows: ##STR22## wherein R and Y are as defined above. 
     Specific examples of α-oxy(oxo) sulfides produced using the afore-mentioned process and their perfumery properties are as follows (as set forth in Table I, below): 
     
                                           TABLE I                                 
__________________________________________________________________________
COMPOUND   STRUCTURE        AROMA                                         
__________________________________________________________________________
3-methylthio-4-  heptanol                                                 
            ##STR23##       At 1% in food grade ethanol, a sweet, green,  
                            floral, herbal, vegetative note.              
3-methylthio-4-  heptanone                                                
            ##STR24##       At 1% in food grade ethanol a green, minty,   
                            herbaceous note with vegetative basil notes   
3-propylthio-4-  heptanol                                                 
            ##STR25##       Fatty, cucumber, onion (scallion, shallot)    
                            aroma with some green melon and floral        
                            nuances.                                      
3-thioacetyl-2,6-  dimethyl-4- heptanone                                  
            ##STR26##       At 1% in food grade ethanol, a sweet, meaty,  
                            vegetable aroma with somewhat of a grape-     
                            fruit topnote.                                
3-isobutylthio-4-  heptanone                                              
            ##STR27##       Evaluated at 1% in food grade ethanol, a      
                            meaty, onion aroma with a green, spicey and   
                            peppery nuance and an underlying Bergamot     
                            note.                                         
3-isobutylthio-2,6-  dimethyl-4-heptanol                                  
            ##STR28##       Evaluated at 1% in food grade ethanol, a      
                            vegetable, green, horseradish, somewhat       
                            rubbery, onion-like aroma containing notes of 
                            hyacinth and narcisse.                        
3-methylthio-2,6-  dimethyl-4-heptanone                                   
            ##STR29##       Evaluated at 1% in food grade ethanol, a      
                            sweet, sulfurous, slightly floral and woody   
                            aroma with a fruity and berry nuance.         
 3-(methallylthio)-2,6-  dimethyl-4-heptanone                             
            ##STR30##       At 1% in ethanol, a fruity, grapefruit,       
                            somewhat floral aroma with underlying yara    
                            neroli notes and bready, vegetative nuances.  
__________________________________________________________________________
 
    
     One or more of the aforementioned α-oxy(oxo) sulfides having the structure: ##STR31## wherein X is one of: ##STR32## R is one of methyl or hydrogen, and Y is one of methyl, methallyl, acetyl, 1-propyl, or 2-methyl-1-propyl is an olfactory agent and can be incorporated into a wide variety of compositions each of which will be enhanced or augmented by its sweet, green, floral, herbal, vegetative, basil-like, minty, melony, grapefruit, fruity and/or alliaceous notes and/or yara, neroli and/or verdima nuances. 
     The α-oxy(oxo) sulfides or mixture of α-oxy(oxo) sulfides can be added to perfume compositions as pure compounds or can be added to mixtures of materials in fragrance-imparting compositions to provide a desired fragrance character to a finished perfume material. The perfume and fragrance compositions obtained according to this invention are suitable in a wide variety of perfumed articles and can also be used to enhance, modify or reinforce natural fragrance materials. It will thus be appreciated that the α-oxy(oxo) sulfide(s) of our invention is(are) useful as olfactory agent(s) and fragrance(s). 
     The term &#34;perfume composition&#34; is used herein to mean a mixture of compounds, including, for example, natural oils, synthetic oils, alcohols, aldehydes, ketones, esters, lactones, nitriles and frequently hydrocarbons which are admixed so that the combined odors of the individual components produce a pleasant or desired fragrance. Such perfume compositions usually contain (a) the main note or the &#34;bouquet&#34; or foundation-stone of the composition; (b) modifiers which round-off and accompany the main note; (c) fixatives which include odorous substances which lend a particular note to the perfume throughout all stages of evaporation, and substances which retard evaporation and (d) topnotes which are usually low-boiling, fresh-smelling materials. Such perfume compositions of our invention can be used in conjunction with carriers, vehicles, solvents, dispersants, emulsifiers, surface-active agents, aerosol propellants, and the like. 
     In perfume compositions the individual components contribute their particular olfactory characteristics, but the overall effect of the perfume composition will be the sum of the effect of each ingredient. Thus, one or more of α-oxy(oxo) sulfides of our invention can be used to alter, augment, modify or enhance the aroma characteristics of a perfume composition or a perfumed aticle, for example, by highlighting or moderating the olfactory reaction contributed by another ingredient of the composition. 
     The amount of one or more of the α-oxy(oxo) sulfides of our invention which will be effective in perfume compositions depends upon many factors, including the other ingredients, their amounts and the effects which are desired. It has been found that perfume compositions containing as much as 2% or as little as 0.005% by weight of the mixtures or compounds of this invention, or even less can be used to impart a buchu leaf oil-like aroma or a grapefruit oil-like aroma to soaps, cosmetics and other products. The amount employed will depend upon considerations of cost, nature of the end products, the effect desired in the finished product, and the particular fragrance sought. 
     One or more of the α-oxy(oxo) sulfides of our invention as disclosed herein can be used alone, in a fragrance modifying composition, or in a perfume composition as an olfactory component in detergents (anionic detergents, cationic detergents, and nonionic detergents) and soaps; space deodorants; perfumes; colognes, bath preparations such as bath oil, bath salts; hair preparations such as lacquers, brilliantines, pomades and shampoos; cosmetic preparations such as creams, deodorants, hand lotions, sun screens; powders such as talcs, dusting powders, face powders and the like. When one or more of the α-oxy (oxo) sulfides of our invention is used in perfumed articles such as the foregoing, it can be used in amounts of 0.01% or lower. Generally, it is preferred not to use more than about 2% in the finished perfumed article, since the use of too much will tend to unbalance the total aroma and will needlessly raise the cost of the article. 
    
    
     The following examples serve to illustrate embodiments of the invention as it is now preferred to practice it. It will be understood that these examples are illustrative and the invention is to be considered restricted thereto only as indicated in the appended claims. 
     EXAMPLE I 
     (A) PREPARATION OF 3-CHLORO-4-HEPTANONE ##STR33## 
     Into a 3000 ml, three-necked, round-bottom flask, equipped with mechanical stirrer, 500 ml addition funnel, Y-tube, pot thermometer and gas outlet tube with rubber tubing leading over a stirring solution of 10% sodium hydroxide is added 1000g 4-heptanone. Addition of 434 g of SO 2  Cl 2  drop-wise into the 4-heptanone is commenced while maintaining the pot temperature in the range of 22°-34° C and is continued over a period of two hours. A water aspirator vacuum is applied to the reaction mass in order to pull the acidic gases; sulfur dioxide and hydrogen chloride, over the sodium hydroxide solution. 
     The reaction mass is periodically sampled using GLC analysis until such time as about 25% chlorinated ketone product is found to be present. 
     While maintaining the reaction mass at 15° C, 1000 ml saturated sodium chloride is added to the mixture, and the mixture is then stirred for a period of 10 minutes. The reaction mass is then transferred to a 5-liter separatory funnel and shaken well, whereupon the organic and aqueous phases separate. The lower aqueous phase (approximately 1000 ml) has a pH of about 1. The upper organic phase is washed with 700 ml saturated sodium bicarbonate solution to a pH of 6-7. The organic phase is then dried over 50 grams anhydrous sodium sulfate and filtered yielding a yellow oil weighing 1063 grams. The organic layer is determined to contain 24.9% chlorinated ketone and 68.1% original ketone starting material. This material is then vacuum distilled by first adding it to a 2000 ml, three-necked, roundbottom flask equipped with a 2.5 × 60 cm vacuum jacketed column packed with 6 mm Raschig Rings, and equipped with an automatic reflux head, a pot thermometer, a heating mantle, a vacuum pump and a dry-ice trap. Fractionation data is as follows: 
     
         ______________________________________                                    
Vacuum Pot     Vapor   Weight of                                          
(mmHg) Temp.   Temp.   Fraction                                           
                               Cut. No.                                   
                                      Reflux Ratio                        
______________________________________                                    
62     80      71      51.0 g  1      60:40                               
62     81.5    71      149.0 g 2      40:60                               
58     82.5    70      157.5 g 3      30:70                               
59     89.5    70      175.0 g 4      30:70                               
59     96      75      110 g   5      30:70                               
59     100     80      24.5 g  6      50:50                               
58     101     90      16.0 g  7      50:50                               
58     102     94      37.5 g  8      30:70                               
55     103     94      144.5 g 9      30:70                               
54     110     95      85.0 g  10     30:70                               
54     119     102     28.0 g  11     30:70                               
15     140     80      45.0 g  12     30:70                               
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     GLC analysis on each of cuts 5-12 (conditions 8 feet × 1/4inches SE-30 column) yields the following information: 
     
         ______________________________________                                    
             Per-    Per-  Per-  Per-  Per-  Per-                         
     Per-    cent    cent  cent  cent  cent  cent                         
     cent    4-      3-Cl  High  High  High  High                         
Cut  low     Hep-    4-Hep-                                               
                           Boiler                                         
                                 Boiler                                   
                                       Boiler                             
                                             Boiler                       
No.  Boilers tanone  tanone                                               
                           (A)   (B)   (C)   (D)                          
______________________________________                                    
5    0.09    96.15    2.97 --    --    --    --                           
7            50%     50%                                                  
8    --       9.28   87.09 2.43  0.57  --    --                           
9    --      trace   95.78 3.22  1.00  --    --                           
10   --      --      91.38 4.89  3.34  0.21  --                           
11   --      --      69.14 7.27  19.89 3.71  --                           
12   --      --       8.32 2.07  49.28 39.69 0.47                         
______________________________________                                    
 
    
     Cuts 8, 9 and 10 are blended (weight 266.5 gms) and are analyzed as follows: 
     
         ______________________________________                                    
0.95%             4-heptanone                                             
93.89%            3-chloro-4-heptanone                                    
3.60%             high boiler A                                           
1.57%             high boiler B                                           
______________________________________                                    
 
    
     EXAMPLE I 
     B. PREPARATION OF 3-THIOACETYL-4-HEPTANONE 
     Reaction: ##STR34## 
     Into a 25 ml, three-necked, round-bottom flask equipped with magnetic stirrer, nitrogen inlet tube, 6 inches Vigreux column with cotton plug and pot thermometer is added a solution of 0.27 grams sodium methoxide in 3 ml anhydrous methanol (0.005 moles sodium methoxide). Under dry nitrogen, 0.38 grams of thioacetic acid dissolved in 3 ml anhydrous methanol (0.005 moles thioacetic acid) is then added to the sodium methoxide solution over a 2-minute period. A solution of 3-chloro-4-heptanone in methanol (0.75 grams 3-chloro-4-heptanone dissolved in one ml anhydrous methanol) prepared according to Part A, supra (cuts 8, 9 and 10 blended) is then added to the reaction mass which becomes turbid. Stirring is continued for a period of one hour, whereupon GLC analysis (conditions: 8 feet × 1/4 inches SE-30 column) yields the following data: 
     
         ______________________________________                                    
15.6%              3-chloro-4-heptanone                                   
3.0%               chloro heptanone high boiler                           
77.67%             major peak                                             
2.37%              late peak                                              
______________________________________                                    
 
    
     With stirring, 15 ml water is added to the reaction mass which then splits up into two phases, an aqueous phase and an organic phase. The pH of the aqueous phase is 5-6. The organic phase is extracted with two 10 ml portions of methylene chloride. The methylene chloride extracts are combined and washed with 5 ml saturated sodium chloride solution. The organic phase is then dried over anhydrous sodium sulfate and concentrated in a rotary evaporator using water aspirator vacuum yielding 0.65 grams of a dark amber oil. GLC trapping of the major peak (Conditions: 8 feet × 1/4 inches SE-30 column operated at 120° C, programmed at 5° C/minute) yields a compound having a molecular weight of 188 and having a mass spectral analysis, NMR analysis and IR analysis which causes confirmation of the structure: ##STR35## 
     The NMR spectrum is set forth in FIG.1 
     The infrared spectrum is set forth in FIG. 2. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
 ##STR36##                                                                
0.92 ppm                                                                  
        (t)     CH.sub.3CH.sub.2                                          
                                        6H                                
0.96    (t)     CH.sub.3CCS                                               
2.01-1.44                                                                 
        (m)     CH.sub.2               4H                                 
 2.39    (s)                                                              
                 ##STR37##                                                
                                        5H                                
 2.53    (m)                                                              
                 ##STR38##                                                
4.20    (t)     OCHCSCO                1H                                 
______________________________________                                    
 
    
     The IR analysis is as follows: 620 CM -1 , 950, 1125, 1350, 1450, 1690, 2320, 2870, 2930, 2960. 
     Material prepared similarly to above example was vacuum distilled yielding 99.3% pure product (boiling point 93.5-94.5° C at 2.8 mm Hg). The thus-distilled material has the same physical properties as set forth above for 3-thioacetyl-4-heptanone. 
     (C) PREPARATION OF 3-THIOMETHYL-4-HEPTANONE 
     Reaction: ##STR39## 
     Into a 50-ml, three-necked, round-bottom flask equipped wth magnetic stirrer, dry ice condenser, pot thermometer, cold water bath, reflux condenser with nitrogen inlet tube and nitrogen bubbler, is placed a solution of 0.54 grams of sodium methoxide in 6 ml anhydrous methanol (0.01 moles sodium methoxide). The sodium methoxide solution is then cooled using the cold-water bath to a temperature of 25° C. The nitrogen flow is ceased and methyl mercaptan in methanol (0.48 grams methyl mercaptan in 6 ml anhydrous methanol, 0.01 moles methyl mercaptan) is added to the reaction mass while maintaining same at 24° C. At 24° C, a solution of 1.49 grams of 3-chloro-4-heptanone in 2 ml anhydrous methanol (0.01 moles 3-chloro-4-heptanone) is added to the reaction mass. The 3-chloro-4-heptanone is produced according to the process set forth in part (A), supra. The reaction mass is maintained, with stirring, at 25° C for a period of one hour and  15 minutes. At the end of this period, the reaction mass is flushed with nitrogen. The reaction mass is then concentrated on a rotary evaporator using a water aspirator vacuum to approximately 5 ml. 
     Distilled water (15 ml) is then added to the concentrated reaction mixture whereupon the reaction mixture forms into two phases; an oil phase and an aqueous phase. the pH of the aqueous phase is in the range of 5-6. The oil phase is then extracted with two 12 ml portions of n-hexane and the phases are separated. The hexane extracts are combined, washed with water (5 ml), dried over anhydrous sodium sulfate, gravity filtered and concentrated on a rotary evaporator to a weight of 1.29 grams. The resulting product contains 90.1% 3-thiomethyl-4-heptanone by GLC having the structure: ##STR40## as confirmed by NMR, IR and mass spectral analyses of trapped compound. 
     The NMR spectrum is set forth in FIG. 3. The IR spectrum is set forth in FIG. 4. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
 ##STR41##                                                                
0.94 ppm                                                                  
        (t)     CH.sub.3CH.sub.2                                          
                                        6H                                
0.97    (t)     CH.sub.3CCS                                               
1.68    (m)     CH.sub.2               4H                                 
1.92    (s)     CH.sub.3S              3H                                 
2.60    (m)                                                               
                 ##STR42##             2H                                 
3.08    (t)                                                               
                 ##STR43##             1H                                 
______________________________________                                    
 
    
     The IR analysis is as follows: 1360 cm -1 , 1375, 1455, 1690, 2330, 2880, 2930, 2960. 
     Material prepared similarly to above example was vacuum distilled yielding 99.2% pure product (boiling point 78°-78.5° C at 8.5 mm Hg). The thus-distilled material has the same physical properties as set forth above for 3-thiomethyl-4-heptanone. 
     (D) PREPARATION OF 3-THIOMETHYL-4-HEPTANOL 
     Reaction: ##STR44## 
     Into a 25 ml, three-necked, round-bottom flask equipped with magnetic stirrer, nitrogen inlet tube, reflux condenser, pot thermometer and cold water bath, is added a solution of 0.10 grams sodium borohydride (NaBH 4 ) dissolved in 4 ml anhydrous ethyl alcohol (0.00265 moles sodium borohydride). While maintaining the pot temperature at 25° C, a solution of 0.8 grams of 3-thiomethyl-4-heptanone in 3.5 ml anhydrous ethyl alcohol is added to the sodium borohydride-ethanol solution over a one-minute period. The reaction mass then warms up to about 30° C and is maintained at a temperature of between 25° and 30° C for a period of about 1.5 hours. At the end of this period another 0.05 grams (0.00133 moles) of sodium borohydride and 2 ml ethanol is added. 
     After 10 minutes of stirring while maintaining the reaction mass at 25° C, the reaction mass is then worked up as follows: The reaction mixture is concentrated to about 4 ml of a thick slurry using water aspirator vacuum. The resulting thick slurry is then combined with 12 ml water thereby causing the solid to dissolve, and the reaction mass to exist in two phases; an aqueous phase and an organic phase. The aqueous phase is acidified to a pH of 2-3 using 10% HCl solution. The organic phase is extracted with two 12 ml portions of methylene chloride. The extracts are then combined, washed with 8 ml water, dried over anhydrous sodium sulfate, gravity filtered, and then concentrated on a rotary evaporator (using water aspirator vacuum) to a weight of 0.58 grams. The desired product is trapped out on an 8 feet × 1/4 inches SE-30 GLC column, and MS, NMR and IR analyses confirm that the resulting compound has the structure: ##STR45## 
     The NMR spectrum is set forth in FIG. 5. The infrared spectrum is set forth in FIG. 6. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
0.94 ppm  (t)        CH.sub.3 -- CH.sub.2 --                              
                                     6H                                   
1.06      (t)        CH.sub.3 -- C-- C-- S-- -1.51                        
                                     (m) -- CH.sub.2 -- 6H                
2.06      (s)        CH.sub.3 -- S-- 3H                                   
2.36      (m)        HC-- --                                              
                                     2H                                   
2.62      (broad)    -- OH                                                
3.52      (m)        HC-- O--        1H                                   
______________________________________                                    
 
    
     The IR analysis is as follows: 
     980 cm -1 , 1010, 1065, 1370, 1430, 1450,  2320, 2860, 2920, 2960, 3440. 
     Material prepared similarly to above example was vacuum distilled yielding 99.5% pure product (boiling point 64°-64.5° C at 1.5 mm Hg). The thus-distilled material has the physical properties as set forth above for 3-thiomethyl-4-heptanol. 
     EXAMPLE II 
     PREPARATION OF 3-METHALLYLTHIO-2,6-DIMETHYL-4-HEPTANONE 
     (A) Preparation of 3-chloro-2,6-dimethyl-4-heptanone 
     Reaction: ##STR46## 
     Into a one-liter, three-necked, round bottom flask equipped with &#34;Y&#34; tube, pot thermometer, mechanical stirrer, 125 ml addition funnel, gas outlet tube, cold water bath and water aspirator vacuum is added 356 grams of 2,6-dimethyl-4-heptanone (2.4 moles). Over a period of one hour, 67.5 grams (40 ml; 0.5 moles) of SO 2  Cl 2  is slowly added to the ketone with stirring while maintaining the reaction mass temperature in the range of 23°-35° C. 
     The reaction mass is then evacuated slowly using water aspirator vacuum thereby removing most of the acidic gases resulting from the foregoing reaction. 
     The reaction mass is then transferred to a one-necked, one-liter, round-bottom flask and the last traces of acidic gases are removed thus yielding 371 grams of product. The reaction mass is then transferred to a 500 ml, three-necked, round-bottom flask equipped with a 2.0 × 30 cm column packed with 1/8 inch helioes, reflux head, magnetic stirrer, heating mantle and vacuum pump and the resulting 3-chloro-2,6-dimethyl-4-heptanone is fractionally distilled at a vapor temperature of 106°-107° C and a pressure of 45-46 mm Hg yielding a product of 97% purity as confirmed by GLC, mass spectral, NMR and IR analyses. 
     B. PREPARATION OF 3-MERCAPTO-2,6-DIMETHYL-4-HEPTANONE 
     Reaction: ##STR47## 
     Into a 250 ml, round-bottom, three-necked flask equipped with magnetic stirrer, pot thermometer, 6 inches Vigreux distillation column with gas outlet at top leading over 200 ml 10% sodium hydroxide solution, H 2  S gas inlet tube (sub-surface), &#34;Y&#34; tube, 50 ml addition funnel, gas bubbler, and dry ice-isopropyl alcohol bath, and cold water bath is added a solution of 11.6 grams of sodium methoxide dissolved in 90 ml anhydrous methanol. The sodium methoxide solution is cooled to a temperature of -15° C using the dry ice-isopropanol bath. While maintaining the temperature of the sodium methoxide solution at -10 to -5° C, hydrogen sulfide is bubbled into the reaction mass over a period of 2 hours. While continuing to bubble in hydrogen sulfide and maintaining the reaction mass at a temperature in the range of -5° C to -9° C, the 3-chloro-2,6-dimethyl-4-heptanone prepared in Part A of this example (18.2 grams; 0.100 moles) is added slowly to the reaction mass from the addition funnel over a period of 13 minutes. The reaction mass is then maintained at a temperature of 0° C-26° C for a period of 4 hours (25° C-26° C for the last 1.5 hours). 
     The reaction mass is then concentrated to approximately 25 ml (thick slurry) using a rotary evaporator and water aspirator vacuum. 85 ml distilled water is then added to the reaction mass, with stirring, while maintaining the temperature at 25° C, thereby yielding a turbid yellow solution. 85 grams of 10% aqueous sodium hydroxide is then added to the resulting mixture whereupon the temperature rises from 25° C to 28° C (pH = 10-11). The basic aqueous solution is then extracted with two 70 ml portions of methylene chloride and the extracts are combined, dried and concentrated yielding 1.7 grams of an oil. The basic aqueous solution is then acidified with 115 ml 10% hydrochloric acid to a pH of 1-2. This is then extracted with four 50 ml portions of methylene chloride. The methylene chloride extracts are combined and washed with two 35 ml portions of saturated sodium chloride (to a pH of 5) and dried over anhydrous sodium sulfate. The resulting mixture is gravity filtered and concentrated on a rotary evaporator to yield 15.5 grams of product containing 96.1% 3-mercapto-2,6-dimethyl-4-heptanone as confirmed by mass spectral, NMR and IR analyses. This material is vacuum distilled at a vapor temperature of 77.5°-78° C and a pressure of 6 mm Hg. 
     C. Preparation of 3-methallylthio-2,6-dimethyl-4-heptanone 
     Reaction: ##STR48## 
     Into a 25 ml, three-necked, round-bottom flask equipped with magnetic stirrer, &#34;Y&#34; tube, nitrogen inlet, reflux condenser with cotton plug, cold water bath and warm water bath is added a solution of 0.162 grams of sodium methoxide dissolved in 2 ml anhydrous methanol. Over a period of 1 minute is added a solution of 0.522 grams of 3-mercapto-2,6-dimethyl-4-heptanone dissolved in 3 ml anhydrous methanol, with stirring. After stirring 12 minutes at 24°-25° C, a solution of 0.3 grams of 3-chloro-2-methyl propene in 1 ml anhydrous methanol is added. With a water bath, the resulting reaction mass is warmed to 31° C and the reaction mass is then stirred while maintaining the temperature in the range of 23-30° C for a period of 2 hours. 
     The reaction mass is then concentrated on a rotary evaporator using water aspirator vacuum to approximately 4 ml yielding a slurry. To the slurry is added 8 ml water and the solid dissolves. The reaction mass is then acidified to a pH of 1-2 with 3 drops of 10% hydrochloric acid. The reaction mass is then extracted with three 8 ml portions of methylene chloride and the extracts are combined, washed with 10 ml water, dried over anhydrous sodium sulfate and gravity filtered. The extracts are concentrated on a rotary evaporator to yield 0.54 grams of a white oil containing 93.6% by GLC of 3-methallylthio-2,6-dimethyl-4-heptanone as confirmed by MS, IR and NMR analyses of trapped product. 
     The NMR spectrum is set forth in FIG. 7. The infrared spectrum is set forth in FIG. 8. 
     The mass spectral analysis is as follows: 
     
         ______________________________________                                    
M/E             Relative Intensity                                        
______________________________________                                    
41              29                                                        
55              44.sup.3                                                  
57              37.sup.6                                                  
69              10                                                        
85              43.sup.5                                                  
87              93.sup.2                                                  
109             33                                                        
142             44.sup.4                                                  
143             100.sup.1                                                 
M 228           28                                                        
______________________________________                                    
 
    
     The NMR analysis is as follows: 
     
         ______________________________________                                    
1.92 ppm, 2.06                                                            
            (2 doublets)                                                  
                        ##STR49##     12H                                 
1.78        (s)        CCH.sub.3      3H                                  
2.12        (m)        methine protons                                    
                                      2H                                  
2.47        (t)        CH.sub.2       2H                                  
2.82        (d)                                                           
                        ##STR50##     1H                                  
3.01        (s)        CCH.sub.2S     2H                                  
4.86        (s)                                                           
                        ##STR51##                                         
______________________________________                                    
 
    
     The IR analysis is as follows:  890 cm -1 , 1035, 1160, 1200, 1225, 1285, 1360, 1380,  1400, 1460, 1640, 1695, 2870, 2960, 3080. 
     Material prepared similarly to above example was vacuum distilled yielding 99.8% pure product (boiling point 100°-105° C at 1.3 mm Hg). The thus-distilled material has the same physical properties as set forth above for 3-methallylthio-2,6-dimethyl-4-heptanone. 
     EXAMPLE II 
     D. PREPARATION OF 3-THIOACETYL-2,6-DIMETHYL-4-HEPTANONE 
     Reaction: ##STR52## 
     Into a 25 ml, three-necked, round-bottom flask equipped with magnetic stirrer, nitrogen inlet tube at top of 6 inches Vigreux column, reflux condenser with cotton plug, pot thermometer, water bath and heating mantle is placed a solution containing 0.27 grams of sodium methoxide (0.005 moles) in 3 ml anhydrous methanol. To the sodium methoxide solution is added a solution of 0.38 grams (0.005 moles) of thioacetic acid in 3 ml anhydrous methanol, with stirring, while maintaining the reaction mass temperature in the range of 23°-25° C. The addition takes place over a period of 10 minutes. While maintaining the reaction mass temperature at 23° C, a solution of 0.883 grams (0.005 moles) of 3-chloro-2,6-dimethyl-4-heptanone (prepared according to Part A) in 2 ml anhydrous methanol is added to the reaction mass. While maintaining the reaction mass temperature between 35° and 45° C and over a period of 3 hours, the reaction mass is stirred. At the end of the 3-hour period only 6% of product is formed. The reaction mass is then refluxed at 66°-76° C for a period of 12 hours, at which point it is indicated by GLC, NMR, IR and mass spectral analyses that 3-thioacetyl-2,6-dimethyl-4-heptanone is formed in an amount of 65%. 
     The reaction mass is then concentrated on a rotary evaporator using water aspirator vacuum to 4 ml of an oily product. Ten ml water is then added, and the solid dissolves. The oil layer is extracted with three 8 ml portions of methylene dichloride, and the extracts are combined and washed with one 8 ml water portion. The extracts are then dried over anhydrous sodium sulfate, gravity filtered and concentrated yielding 0.54 grams of a yellow oil. The desired product is trapped on a GLC SE-30 column (Conditions: 8 feet × 1/4inches). 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
1.01-0.88 ppm Methyl protons        12H                                   
2.42-2.03     Methine protons                                             
 2.44                                                                     
               ##STR53##             7H                                   
2.40                                                                      
               ##STR54##                                                  
4.14                                                                      
               ##STR55##                                                  
______________________________________                                    
 
    
     The infrared analysis is as follows:  6.20 cm -1 , 950, 1100, 1130, 1360, 1380,  1465, 1695, 2870, 2930, 2960. 
     The mass spectral analysis is as follows: 
     
         ______________________________________                                    
M/E             Relative Intensity                                        
______________________________________                                    
41              14.sup.5                                                  
43              40.sup.3                                                  
55              12                                                        
57              60.sup.2                                                  
85              100.sup.1                                                 
89              27.sup.4                                                  
131             12.sup.6                                                  
141             9                                                         
173             11                                                        
M 216           7                                                         
______________________________________                                    
 7                                                                        
 
    
     The NMR spectrum is set forth in FIG. 8(A). The infrared spectrum is set forth in FIG. 8(B). 
     EXAMPLE III 
     A. Preparation of 3-propylthio-4-heptanone ##STR56## 
     Into a 50 ml, three-necked, round bottom flask equipped with magnetic stirrer, reflux condenser, nitrogen inlet tube, pot thermometer and cold water bath, is placed a solution of 0.54 grams of sodium methoxide dissolved in 6 ml anhydrous methanol (0.01 moles of sodium methoxide). The sodium methoxide solution is cooled using the water bath to 25° C. A solution of 0.76 grams of n-propyl mercaptan dissolved in 6 ml anhydrous methanol (0.01 moles n-propyl mercaptan) is then added to the sodium methoxide/methanol solution, and the temperature rises to 28° C. 1.5 g (0.01 moles) 3-chloro-4-heptanone dissolved in 2 ml anhydrous methanol is then added, and the temperature of the reaction mass rises to 38° C, whereupon it is cooled using the water bath to a temperature in the range of 25°-30° C. The reaction mass is then stirred under nitrogen for a period of 6 hours. 
     The reaction mass is then concentrated to a volume of 4 ml using a rotary evaporator to which water aspirator vacuum is applied. 9 ml distilled water is then added to the reaction mass concentrate whereupon the solid dissolves. The oil phase is extracted with three 8 ml portions of methylene chloride, and the extracts are combined and washed with 8 ml of water and dried over anhydrous sodium sulfate and filtered and then concentrated. GLC, MS, NMR and IR analyses of trapped product yield the information that the subject material is 3-propylthio-4-heptanone 
     The NMR spectrum is set forth in FIG. 9. The IR spectrum is set forth in FIG. 10. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
0.87-1.04 ppm                                                             
           superimposed                                                   
                       CH.sub.3        9H                                 
           signals                                                        
1.63       (m)         CH              6H                                 
2.38       (t)         CH.sub.2S       2H                                 
2.60       (t)                                                            
                        ##STR57##      2H                                 
3.11       (t)         OCHCS           1H                                 
______________________________________                                    
 
    
     The IR analysis is as follows: 1130 cm -1 , 1165, 1290, 1360, 1380, 1405, 1460, 1700, 2880, 2940, 2960. 
     The mass spectral analyses is as follows: 
     
         ______________________________________                                    
M/E             Relative Intensity                                        
______________________________________                                    
41              20.sup.4                                                  
43              26.sup.3                                                  
55              5                                                         
71              10                                                        
75              35.sup.2                                                  
117             10                                                        
118             100.sup.1                                                 
118             10.sup.6                                                  
119             9                                                         
M 188           16.sup.5                                                  
______________________________________                                    
 
    
     Material prepared similarly to above example was vacuum distilled yielding 98.4% pure product (boiling point 72°-73° C at 1.5 mm Hg). The thus-distilled material has the same physical properties as set forth above for 3-propylthio-4-heptanone. 
     B. Preparation of 3-propylthio-4-heptanol 
     Reaction: ##STR58## 
     Into a 25 ml, three-necked, round bottom flask equipped with magnetic stirrer, reflux condenser, pot thermometer, and nitrogen inlet (for flushing with dry nitrogen) is added a solution of 0.15 grams of sodium borohydride dissolved in 6 ml anhydrous methanol (0.004 moles sodium borohydride). With stirring, a solution of 1.0 grams of 3-propylthio-4-heptanone dissolved in 4 ml anhydrous ethyl alcohol is added to the sodium borohydride solution which then warms to 28° C. The reaction mass is stirred for a period of 2 hours at 25° C and then concentrated on a rotary evaporator (using water aspirator vacuum) to a volume of 4 ml yielding an oily solid. 8 ml water is then added to the solid, with stirring, and the solid dissolves yielding two phases: an oil phase and a water phase. The resulting reaction mass is acidified with 10% hydrochloric acid to a pH of between 2 and 3. The oil phase is extracted with three 8 ml volumes of methylene chloride, and the extracts are combined and washed with 8 ml water. The extracts are then dried over anhydrous sodium sulfate, filtered and concentrated to a weight of 0.79 grams (water-white oil). GLC, IR, mass spectral and NMR analyses after GLC trapping (conditions: 8 feet × 1/4 inch SE-30 column) yield the information that the crude material is 96% product having the structure of 3-propylthio-4heptanol. 
     The NMR spectrum is set forth in FIG. 11. The IR spectrum is set forth in FIG. 12. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
1.13-0.96 ppm                                                             
          superimposed                                                    
                     methyl protons  9H                                   
          signals                                                         
1.44      (m)        -- CH.sub.2 --  8H                                   
2.47      (s)        --OH                                                 
                                     4H                                   
2.49      (m)        HC-- S-- CH.sub.2 --                                 
3.50      (m)        HC-- O--        1H                                   
______________________________________                                    
 
    
     The IR analysis is as follows: 1290 cm -1 , 1380, 1460, 2880, 2940, 2970, 3460. 
     Material prepared similarly to above example was vacuum distilled yielding 99.8% pure product (boiling point 65° C at 0.4 mm Hg). The thus-distilled material has the same physical properties as set forth above for 3-propylthio-4-heptanol. 
     EXAMPLE IV 
     PREPARATION OF 3-ISOBUTYLTHIO-4-HEPTANONE 
     Reaction: ##STR59## 
     Into a 50 ml, three-necked, round bottom flask equipped with magnetic stirrer, reflux condenser, pot thermometer, water bath, 15 cm Vigreux column with nitrogen inlet at top is added a solution of 0.54 grams of sodium methoxide (0.01 moles) in 6 ml anhydrous methanol. The reaction mass is cooled to 25° C and a solution of 0.90 grams of isobutyl mercaptan (2-methyl-1-propanethiol) dissolved in 6 ml anhydrous methanol is added over a period of one minute. After keeping the reaction mass at 24° C with stirring for a period of 10 minutes, 1.50 grams of 3-chloro-4-heptanone dissolved in 2 ml anhydrous methyl alcohol (0.01 moles of 3-chloro-4-heptanone) is added to the reaction mass which then warms to 37° C. The reaction mass is allowed to cool to a temperature of 24° C and stirred at that temperature for a period of 6 hours. 
     The reaction mass is then concentrated on a rotary evaporator using water aspirator vacuum to a volume of 4 ml yielding an oily solid. Ten ml water is then added, and the solid dissolves yielding two phases: an oil phase and an aqueous phase. The oil phase is extracted with three 9 ml portions of methylene chloride, and the extracts are combined and washed with 9 ml water. The extracts are then dried over anhydrous sodium sulfate, filtered and concentrated to a weight of 1.78 grams. 
     Mass spectral, infrared, NMR and IR analyses yield the information that the reaction mass contains 90.9% product which is 3-isobutylthio-4-heptanone. 
     The NMR spectrum is set forth in FIG. 13. The IR spectrum is set forth in FIG. 14. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
0.96 ppm  (d)                                                             
                    ##STR60##                                             
0.98      (t)      CH.sub.3CH.sub.2   12H                                 
0.91      (t)                                                             
                    ##STR61##                                             
1.70      (m)                                                             
                    ##STR62##         5H                                  
2.26      (d)      SCH.sub.2          2H                                  
2.60      (t)                                                             
                    ##STR63##         2H                                  
3.10      (t)      OCHCS              1H                                  
______________________________________                                    
 
    
     The IR analysis is as follows: 1365 cm -1 , 1380, 1460, 1700, 2880, 2940, 2960. 
     EXAMPLE V 
     A. PREPARATION OF 3-ISOBUTYLTHIO-2,6-DIMETHYL-4-HEPTANONE 
     Reaction: ##STR64## 
     Into a 50 ml, three-necked, round bottom flask equipped with pot thermometer, magnetic stirrer, gas inlet tube (for nitrogen) at top of 15 cm Vigreux column, nitrogen bubbler and cold water bath is added a solution of 0.54 grams (0.01 moles) of sodium methoxide dissolved in 6 ml anhydrous methanol. The solution is cooled to 24° C and a solution of 0.90 grams (0.01 moles) of isobutyl mercaptan dissolved in 6 ml anhydrous methanol is then added to the reaction mass. After stirring at 24° C for a period of 10 minutes, a solution of 1.77 grams of 3-chloro-2,6-dimethyl-4-heptanone dissolved in 2 ml anhydrous methanol is added to the reaction mass with stirring at 24° C-25° C. The reaction mass is then stirred for a period of 8 hours. 
     The reaction mass is then concentrated on a rotary evaporator using water aspirator vacuum to 5 ml of a thick oil/solid slurry. 15 ml water is added and the solid dissolves. The resulting liquid mixture being in 2 phases; an aqueous phase and an organic phase. The reaction mass is then extracted with three 10 ml portions of methylene dichloride and the extracts are combined and washed with 8 ml water. The extracts are then dried over anhydrous sodium sulfate, gravity filtered and concentrated on a rotary evaporator to a weight of 1.89 grams (pale yellow oil). GLC, NMR, IR and mass spectral analyses yield the information that the resulting product is 79.2% 3-isobutylthio-2,6-dimethyl-4-heptanone. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
0.94 ppm, 1.10 methyl protons 18 H                                        
2.26-1.60      methine protons                                            
                              3 H                                         
2.26                                                                      
                ##STR65##     2 H                                         
2.50           CH.sub.2C      2 H                                         
2.80                                                                      
                ##STR66##     1 H                                         
______________________________________                                    
 
    
     The IR analysis is as follows: 1035 cm -1 , 1160, 1285, 1360, 1380, 1460, 1700, 2870, 2930, 2960. 
     The mass spectral analysis is as follows: 
     
         ______________________________________                                    
M/E               Relative Intensity                                      
______________________________________                                    
29                7                                                       
41                11.sup.5                                                
55                17.sup.4                                                
57                42.sup.2                                                
69                6                                                       
85                8                                                       
89                33.sup.3                                                
145               100.sup.1                                               
146               9.sup.6                                                 
M 230             8                                                       
______________________________________                                    
 
    
     The NMR spectrum is set forth in FIG. 14(A). The IR spectrum is set forth in FIG. 14(B). 
     B. PREPARATION OF 3 -ISOBUTYLTHIO-2,6-DIMETHYL-4-HEPTANOL 
     Reaction: ##STR67## 
     Into a 25 ml, three-necked, round-bottom flask equipped with magnetic stirrer, reflux condenser, pot thermometer and nitrogen inlet tube to flush with dry nitrogen, is added a solution of 0.1 grams (0.00265 moles) of sodium borohydride dissolved in 4 ml anhydrous ethanol. While the temperature of the sodium borohydride solution is at 24° C, a solution of 1.1 grams of 3-isobutylthio-2,6-dimethyl-4-heptanone (prepared according to Part A) dissolved in 4 ml anhydrous ethanol is added to the reaction mass slowly. The reaction mass is then stirred for a period of 6.5 hours. 
     The reaction then shows 30% product (3-isobutylthio-2,6-dimethyl-4-heptanol) by GLC analysis. An additional 0.2 grams of sodium borohydride dissolved in 6 ml anhydrous ethanol is added, and the reaction mass is continued to be stirred for a period of 4 hours. GLC analysis shows 59% product. Another 0.15 grams of sodium borohydride in 5 ml anhydrous ethanol is added and stirred for an additional 4 hours. 
     GLC analysis then shows 78% product. 
     The reaction mixture is then concentrated on a rotary evaporator using water aspirator vacuum to 5 ml of an oily solid. 6 ml water is then added and the solid dissolves yielding two liquid phases; an organic phase and an aqueous phase. The reaction mass is neutralized with 10% HCl to a pH of 5. The oil is then extracted with 20 ml methylene dichloride, and the extracts are washed with water. The extracts are then dried over anhydrous sodium sulfate, filtered and concentrated on a rotary evaporator to a weight of 0.82 grams (pale yellow oil). GLC analysis indicates that the material is 86.4% product. NMR and IR analyses of GLC trapped compound yield the information that the product is 3-isobutylthio-2,6-dimethyl-4-heptanol. 
     The NMR spectrum is set forth in FIG. 15. The IR spectrum is set forth in FIG. 16. 
     The NMR analysis is as follows: 
     
         ______________________________________                                    
1.10-          superimposed                                               
                          CH.sub.3      18H                               
0.89 ppm       signals                                                    
1.34   (m)                methine       3H                                
                          protons                                         
1.84   (m)                CH.sub.2CO    2H                                
2.44   (m)                CH.sub.2S, HCS                                  
                                        3H                                
2.79   (broad)            OH            1H                                
3.72   (m)                                                                
                           ##STR68##    1H                                
______________________________________                                    
 
    
     The IR analysis is as follows:  1055 cm -1 , 1365, 1385, 1465, 2880, 2930, 2960, 3460. 
     EXAMPLE VI 
     PREPARATION OF 3-METHYLTHIO-2,6-DIMETHYL-4-HEPTANONE 
     Reaction: ##STR69## 
     Into a 50 ml, three-necked, round-bottom flask equipped with pot thermometer, magnetic stirrer, gas inlet tube (subsurface), gas bubbler, methyl mercaptan gas cylinder, 15 cm Vigreux column, gas outlet tube leading to stirred 10% sodium hydroxide solution, and cold water bath is added a solution of 0.54 grams of sodium methoxide in 12 ml anhydrous methanol (0.01 moles sodium methoxide). The reaction mass warms to 30° C, and it is cooled to 23° C using the cold water bath. Over a period of 20 minutes the methyl mercaptan is bubbled in below the surface of the liquid while maintaining the temperature of the reaction mass at 22°-23° C. The reaction flask is then flushed with dry nitrogen, and a solution of 1.77 grams of 3-chloro-2,6-dimethyl-4-heptanone dissolved in 2 ml anhydrous methanol is then added to the reaction mass. The reaction mass remains at 23°-25° C and is stirred at that temperature for a period of 2.5  hours. GLC analysis indicates 79% product. The reaction mass is then warmed to 35° C and maintained at 28°-35° C for another 1.5 hours. 
     The reaction mass is then concentrated to a volume of 5 ml using a rotary evaporator to which water aspirator vacuum is applied. 15 ml distilled water is then added to dissolve the solid yielding a two phase mixture (an aqueous phase and an organic phase). The reaction mass is then extracted with three 10 ml portions of methylene chloride, and the extracts are combined and washed with 10 ml of water. The combined extracts are then dried over anhydrous sodium sulfate, gravity filtered and concentrated on a rotary evaporator to a weight of 1.56 grams. GLC, MS, NMR and IR analyses yield the information that the resulting material is 89.6% product, 3-methylthio-2,6-dimethyl-4-heptanone. The pure material is trapped out using preparative GLC (conditions: 8 feet × 1/4 inch SE-30 column). 
     The NMR spectrum is set forth in FIG. 17. The IR spectrum is set forth in FIG. 18. 
     The Mass Spectral analysis is as follows: 
     
         ______________________________________                                    
M/E               Relative Intensity                                      
______________________________________                                    
41                8.sup.5                                                 
55                32.sup.2                                                
57                12.sup.3                                                
61                5                                                       
69                5                                                       
85                7.sup.6                                                 
102               6                                                       
103               100.sup.1                                               
104               6                                                       
M 188             10.sup.4                                                
______________________________________                                    
 
    
     The NMR analysis is as follows: 
     
         ______________________________________                                    
0.94, 1.08 ppm Methyl protons  12 H                                       
1.90           CH.sub.3S       3 H                                        
2.37 - 1.96    Methine protons 2 H                                        
2.49                                                                      
                ##STR70##                                                 
2.78                                                                      
                ##STR71##                                                 
______________________________________                                    
 
    
     The IR analysis is as follows: 1035 cm -1 , 1160, 1360, 1380, 1400, 1465, 1695, 2870, 2920, 2960 
     EXAMPLE VII 
     OTTO OF ROSE PERFUME FORMULATION 
     The following mixture is prepared: 
     
         ______________________________________                                    
Ingredients              Parts by Weight                                  
______________________________________                                    
Phenyl acetic acid       5                                                
Hydroxycitronellal       10                                               
Geraniol                 125                                              
Citronellol              150                                              
Phenyl ethyl alcohol     50                                               
Phenyl ethyl acetate     4                                                
Ethyl phenyl acetate     5                                                
Citronellyl formate      20                                               
Geranyl acetate          25                                               
Linalool                 15                                               
Terpineol                10                                               
Eugenol                  3                                                
Phenyl acetaldehyde dimethyl acetal                                       
                         5                                                
Benzyl acetate           3                                                
Guaiacwood Oil           5                                                
3-methylthio-4-heptanone produced according                               
to the process of Part &#34;C&#34; of Example I                                   
                         10                                               
______________________________________                                    
 
    
     The 3-methylthio-4-heptanone, produced according to the process of Part &#34;C&#34; of Example I imparts a green, fruity, spicy topnote so characteristic of rose otto to this formulation. 
     EXAMPLE VIII 
     ORIENTAL VETIVERT 
     The following mixture is prepared: 
     
         ______________________________________                                    
Ingredients              Parts by Weight                                  
______________________________________                                    
Orange oil Florida       150                                              
Lemon Oil                75                                               
Oil of bitter orange     100                                              
Grapefruit oil           200                                              
Neroli oil               20                                               
Isocyclemone E (a product produced                                        
according to the process of Example VI                                    
of U.S. Pat. No. 3,907,321, issued on                                     
Sept. 23, 1975, which comprises reacting                                  
myrcene with 3-methyl-3-pentent-2-one in                                  
the presence of aluminum chloride and                                     
then cyclizing the resulting Diels-Alder                                  
adduct.)                 40                                               
Gamma methyl ionone      15                                               
Ylang extra              5                                                
Auralva (The Shiff base of methyl anthranilate                            
and hydroxy citronellal, specifically                                     
described in Section 1735 of Arctancer,                                   
&#34;Perfume and Flavor Chemicals (Aroma                                      
Chemicals)&#34; 1969)        15                                               
Lyral 4-(4-methyl,4-hydroxyamyl) .increment..sup.3 -                      
cyclohexene carboxaldehyde                                                
                         30                                               
Grisalva (produced by the 50% sulfuric acid                               
treatment of 3-ethyl-1 2,2,6-trimethyl-                                   
cyclohexene-5-yl-l!hexene-3-ol-6)                                         
                         10                                               
3-(methallythio)-2,6-dimethyl-4-heptanone,                                
produced according to the process of                                      
Example II(C).           50                                               
______________________________________                                    
 
    
     The 3-(methyallylthio)-2,6-dimethyl-4-heptanone, produced according to the process of Example II(C) imparts a sweet, orange-flower, green beta vetivone woody character to this composition. 
     EXAMPLE IX 
     NARCISSE FORMULATION 
     The following mixture is prepared: 
     
         ______________________________________                                    
Ingredient               Parts by Weight                                  
______________________________________                                    
Benzyl alcohol           50                                               
Benzyl benzoate          25                                               
Terpineol                30                                               
Nerol                    15                                               
Phenyl ethyl alcohol     50                                               
Geraniol                 40                                               
Linalool                 50                                               
Para cresyl phenyl acetate                                                
                         10                                               
Benzyl acetate           6                                                
Acetyl isoeugenol        20                                               
Heliotropin              30                                               
Ylang extra              5                                                
Para cresol              1                                                
3-methylthio-4-heptanol, produced according                               
to the process of Example I, Part &#34;D&#34;                                     
                         20                                               
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     The 3-methylthio-4-heptanol, produced according to the process of Example I, Part &#34;D&#34; imparts a green, floral, heady tobacco-like oriental middle and undertone necessary for narcisse. 
     EXAMPLE X 
     COMPARISON OF SUBSTITUTED THIOHEPTANONES AND THEIR CORRESPONDING ALCOHOLS 
     3-methylthio-4-heptanone (hereinafter referred to as &#34;chemical I&#34;) has a powerful green, minty, herbaceous odor. 
     3-methylthio-4-heptanol (hereinafter referred to as &#34;chemical II&#34;) has a green, floral, herbal odor, about one-fifth the strength of chemical I. 
     3-(methallylthio)2,6-dimethyl-4-heptanone (hereinafter referred to as &#34;chemical III&#34;) has a floral, herbaceous aroma with a fruity, grapefruit (nootkatone) character. 
     The foregoing materials, chemicals I, II and III may be used in perfumery to give unusual and novel effects to various fragrance types. They are useful in creating modern blends which are in some cases far removed from the classical concepts of perfumery. The use of chemicals I, II and III may be demonstrated in the following modern herbal formulation: 
     
         ______________________________________                                    
Ingredients          A       B       C                                    
______________________________________                                    
Oakmoss Absolute 50% in diethyl-                                          
phthalate            20      20      20                                   
α-methyl-3,4-methylene-dioxy-                                       
hydrocinnamic aldehyde                                                    
                     10      10      10                                   
methyl dihydrojasmonate (produced                                         
by Firmenich et Cie of Geneva,                                            
Switzerland)         100     100     100                                  
Coumarin             20      20      20                                   
Musk Ketone          80      80      80                                   
Isocyclocitral (10% in                                                    
diethylphthalate)    10      10      10                                   
Galbanum Oil (10% in diethyl-                                             
phthalate)           6       6       6                                    
Rosemary Oil         10      10      10                                   
Pine Needle Oil      60      60      60                                   
Fir Balsam Absolute (10% in                                               
diethylphthalate)    10      10      10                                   
Bergamot Oil         60      60      60                                   
Lemon Oil            14      14      14                                   
Benzyl Acetate       468     460     460                                  
Linalool             80      80      80                                   
Indol (10% in diethylphthalate)                                           
                     6       6       6                                    
Undecalactone (10% in diethyl-                                            
phthalate)           12      12      12                                   
Ylang Ylang Oil      32      32      32                                   
Alkylthio chemical I 2       --      --                                   
Alkythio chemical II --      10      --                                   
Alkythio chemical III                                                     
                     --      --      10                                   
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     The addition of 0.2% by weight of chemical I gives increased strength to the fragrance as well as modifying the herbal character and rendering it unusual and novel. The material can be used in perfumery at from approximately 1 ppm (0.0001%) up to approximately 1%. 
     The weaker alcohol, chemical II, is added to the fragrance at 1% by weight. The addition of this material gives a softer effect but alters the herbal effect to an unusual and novel character. Chemical II may be used in perfumery from approximately 0.01% to 5% by weight. For special effects up to 50% may be used. 
     The addition of 1% of chemical III gives quite a different effect. In this case the herbal character is not altered as in the other examples, but the citrus notes are enhanced and strengthened. This chemical may be used in perfumery from approximately 0.01% to 10% by weight. For special effects up to 50% may be used. 
     In all cases of the above examples, the fragrance is improved by the addition of the alkylthio chemicals I, II and III and rendered more desirable and novel. 
     EXAMPLE XI 
     PREPARATION OF SOAP COMPOSITIONS 
     100 grams of soap chips are mixed with 1 gram of the chemical set forth in Table II below until a substantially homogeneous composition is obtained. The perfumed soap composition manifests an aroma according to the aroma set forth in Table II below: 
     
                       Table II                                                    
______________________________________                                    
Compound       Aroma                                                      
______________________________________                                    
3-methylthio-4-heptanol                                                   
               A sweet, green, floral, herbal,                            
               vegetative aroma with an                                   
               underlying verdima nuance.                                 
3-methylthio-4-heptanone                                                  
               A green, minty, herbaceous aroma                           
               with basil nuances.                                        
3-propylthio-4-heptanol                                                   
               A green aroma with floral nuances.                         
3-thioacetyl-2,6-dimethyl-                                                
               A grapefruit oil-like aroma.                               
4-heptanone                                                               
3-isobutylthio-4-heptanone                                                
               A green, spicey and peppery                                
               aroma with an underlying bergamot                          
               note.                                                      
3-isobutylthio-2,6-dimethyl-                                              
               A green aroma containing notes                             
4-heptanol     of hyacinth and narcisse.                                  
3-methylthio-2,6-dimethyl-                                                
               A sweet, slightly floral and                               
4-heptanone    woody aroma with fruity and                                
               berry nuances.                                             
3-(methallythio)-2,6-                                                     
               A fruity, grapefruit, somewhat                             
dimethyl-4-heptanone                                                      
               floral aroma with underlying                               
               yara and neroli notes and                                  
               bready, vegetative nuances.                                
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     EXAMPLE XII 
     PREPARATION OF A DETERGENT COMPOSITION 
     A total of 100 grams of a detergent powder (a non-ionic detergent powder containing a proteolytic enzyme prepared according to Example I of Canadian Pat. No. 985,190 issued on Mar. 9, 1976) is mixed with 0.15 grams of the α-oxy(oxo) sulfides set forth in Table III below until a substantially homogeneous composition is obtained. This composition has an excellent aroma as defined in Table III below: 
     
         ______________________________________                                    
Compound       Aroma                                                      
______________________________________                                    
3-methylthio-4-heptanol                                                   
               A sweet, green, floral, herbal,                            
               vegetative aroma with an                                   
               underlying verdima nuance.                                 
3-methylthio-4-heptanone                                                  
               A green, minty, herbaceous aroma                           
               with basil nuances.                                        
3-propylthio-4-heptanol                                                   
               A green aroma with floral nuances.                         
3-thioacetyl-2,6-dimethyl-                                                
               A grapefruit oil-like aroma.                               
4-heptanone                                                               
3-isobutylthio-4-heptanone                                                
               A green, spicey and peppery                                
               aroma with an underlying bergamot                          
               note.                                                      
3-isobutylthio-2,6-dimethyl-                                              
               A green aroma containing notes                             
4-heptanol     of hyacinth and narcisse.                                  
3-methylthio-2,6-dimethyl-                                                
               A sweet, slightly floral and                               
4-heptanone    woody aroma with fruity and                                
               berry nuances.                                             
3-(methallylthio)-2,6-                                                    
               A fruity, grapefruit, somewhat                             
dimethyl-4-heptanone                                                      
               floral aroma with underlying                               
               yara and neroli notes and                                  
               bready, vegetative nuances.                                
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     EXAMPLE XIII 
     PREPARATION OF COSMETIC POWDER COMPOSITIONS 
     Cosmetic powders are prepared by mixing in a ball mill 100 grams of talcum powder with 0.25 grams of each of the compounds set forth in Table IV below. Each of these powders has an excellent aroma as set forth in Table IV below. 
     
                       Table IV                                                    
______________________________________                                    
Compound       Aroma                                                      
______________________________________                                    
3-methylthio-4-heptanol                                                   
               A sweet, green, floral, herbal,                            
               vegetative aroma with an                                   
               underlying verdima nuance.                                 
3-methylthio-4-heptanone                                                  
               A green, minty, herbaceous aroma                           
               with basil nuances.                                        
3-propylthio-4-heptanol                                                   
               A green aroma with floral nuances.                         
3-thioacetyl-2,6-dimethyl-                                                
               A grapefruit oil-like aroma.                               
4-heptanone                                                               
3-isobutylthio-4-heptanone                                                
               A green, spicey and peppery                                
               aroma with an underlying bergamot                          
               note.                                                      
3-isobutylthio-2,6-dimethyl-                                              
               A green aroma containing notes                             
4-heptanol     of hyacinth and narcisse.                                  
3-methylthio-2,6-dimethyl-                                                
               A sweet, slightly floral and                               
4-heptanone    woody aroma with fruity and                                
               berry nuances.                                             
3-(methallythio)-2,6-                                                     
               A fruity, grapefruit, somewhat                             
dimethyl-4-heptanone                                                      
               floral aroma with underlying                               
               yara and neroli notes and                                  
               bready, vegetative nuances.                                
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     EXAMPLE XIV 
     PERFUMED LIQUID DETERGENTS 
     Concentrated liquid detergents with rich, pleasant aromas as set forth in Table V below are prepared containing 0.10%, 0.15% and 0.20% of an α-oxy(oxo) sulfide as set forth in Table V below. They are prepared by adding and homogeneously admixing the appropriate quantity of α-oxy(oxo) sulfide in the liquid detergent. The liquid detergents are all produced using anionic detergents containing a 50:50 mixture of sodium lauroyl sarcosinate and potassium N-methyl lauroyl tauride. The detergents all possess a pleasant fragrance as defined in the table below, the intensity increasing with greater concentration of α-oxy(oxo) sulfide of this invention. 
     
         ______________________________________                                    
Compound       Aroma                                                      
______________________________________                                    
3-methylthio-4-heptanol                                                   
               A sweet, green, floral, herbal,                            
               vegetative aroma with an                                   
               underlying verdima nuance.                                 
3-methylthio-4-heptanone                                                  
               A green, minty, herbaceous aroma                           
               with basil nuances.                                        
3-propylthio-4-heptanol                                                   
               A green aroma with floral nuances.                         
3-thioacetyl-2,6-dimethyl-                                                
               A grapefruit oil-like aroma.                               
4-heptanone                                                               
3-isobutylthio-4-heptanone                                                
               A green, spicey and peppery                                
               aroma with an underlying bergamot                          
               note.                                                      
3-isobutylthio-2,6-dimethyl-                                              
               A green aroma containing notes                             
4-heptanol     of hyacinth and narcisse.                                  
3-methylthio-2,6-dimethyl-                                                
               A sweet, slightly floral and                               
4-heptanone    woody aroma with fruity and                                
               berry nuances.                                             
3-(methallythio)-2,6-                                                     
               A fruity, grapefruit, somewhat                             
dimethyl-4-heptanone                                                      
               floral aroma with underlying                               
               yara and neroli notes and                                  
               bready, vegetative nuances.                                
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     EXAMPLE XV 
     an α-oxy(oxo) sulfide as set forth in Table VI below is incorporated in a cologne at a concentration of 2.5% in 85% aqueous ethanol; and into a handkerchief perfume at a concentration of 20% (in 95% aqueous ethanol). A distinct and definite strong fragrance as set forth in Table VI below is imparted to the cologne and to the handkerchief perfume: 
     
         ______________________________________                                    
Compound       Aroma                                                      
______________________________________                                    
3-methylthio-4-heptanol                                                   
               A sweet, green, floral, herbal,                            
               vegetative aroma with an                                   
               underlying verdima nuance.                                 
3-methylthio-4-heptanone                                                  
               A green, minty, herbaceous aroma                           
               with basil nuances.                                        
3-propylthio-4-heptanol                                                   
               A green aroma with floral nuances.                         
3-thioacetyl-2,6-dimethyl-                                                
               A grapefruit oil-like aroma.                               
4-heptanone.                                                              
3-isobutylthio-4-heptanone                                                
               A green, spicey and peppery                                
               aroma with an underlying bergamot                          
               note.                                                      
3-isobutylthio-2,6-dimethyl-                                              
               A green aroma containing notes                             
4-heptanol     of hyacinth and narcisse.                                  
3-methylthio-2,6-dimethyl-                                                
               A sweet, slightly floral and                               
4-heptanone    woody aroma with fruity and                                
               berry nuances.                                             
3-(methyallythio)-2,6-                                                    
               A fruity, grapefruit, somewhat                             
dimethyl-4-heptanone                                                      
               floral aroma with underlying                               
               yara and neroli notes and                                  
               bready, vegetative nuances.                                
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     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a NMR spectrum for the product of Example I(B) wherein 3-thioacetyl-4-heptanone is produced. 
     FIG. 2. is the infrared spectrum for the product of Example I(B) wherein 3-thioacetyl-4-heptanone is produced. 
     FIG. 3 is the NMR spectrum for the product of Example I(C) wherein 3-thiomethyl-4-heptanone is produced. 
     FIG. 4 is the infrared spectrum for the product of Example I(C) wherein 3-thiomethyl-4-heptanone is produced. 
     FIG. 5 is the NMR spectrum for the product of Example I(D) wherein 3-thiomethyl-4-heptanol is produced. 
     FIG. 6 is the infrared spectrum for the product of Example I(D) wherein 3-thiomethyl-4-heptanol is produced. 
     FIG. 7 is the NMR spectrum for the product of Example II(C) wherein 3-methallylthio-2,6-dimethyl-4-heptanone is produced. 
     FIG. 8 is the infrared spectrum for the product of Example II(C) wherein 3-methallylthio-2,6-dimethyl-4-heptanone is produced. 
     FIG. 8(A) is the NMR spectrum for the product of Example II(D) wherein 3-thioacetyl-2,6-dimethyl-4-heptanone is produced. 
     FIG. 8(B) is the infrared spectrum for the product of Example II(D) wherein 3-thioacetyl-2,6-dimethyl-4-heptanone is produced. 
     FIG. 9 is the NMR spectrum for the product of Example III(A) wherein 3-propylthio-4-heptanone is produced. 
     FIG. 10 is the infrared spectrum for the product of Example III(A) wherein 3-propylthio-4-heptanone is produced. 
     FIG. 11 is the NMR spectrum for the product of Example III(B) wherein 3-propylthio-4-heptanol is produced. 
     FIG. 12 is the infrared spectrum for the product of Example III(B) wherein 3-propylthio-4-heptanol is produced. 
     FIG. 13 is the NMR spectrum for the product of Example IV wherein 3-isobutylthio-4-heptanone is produced. 
     FIG. 14 is the infrared spectrum for the product of Example IV wherein 3-isobutylthio-4-heptanone is produced. 
     FIG. 14(A) is the NMR spectrum for the product of Example V(A) wherein 3-isobutylthio-2,6-dimethyl-4-heptanone is produced. 
     FIG. 14(B) is the infrared spectrum for the product of Example V(A) wherein 3-isobutylthio-2,6-dimethyl-4-heptanone is produced. 
     FIG. 15 is the NMR spectrum for the product of Example V(B) wherein 3-isobutylthio-2,6-dimethyl-4-heptanol is produced. 
     FIG. 16 is the infrared spectrum for the product of Example V(B) wherein 3-isobutylthio-2,6-dimethyl-4-heptanol is produced. 
     FIG. 17 is the NMR spectrum for the product of Example VI wherein 3-methylthio-2,6-dimethyl-4-heptanone is produced. 
     FIG. 18 is the infrared spectrum for the product of Example VI wherein 3-methylthio-2,6-dimethyl-4-heptanone is produced.