Kinetic control preparation

The ke)r step of Sodeoka s synthesis was the kinetically controlled preparation of the cage-shaped dilactone 5 from an advanced intermediate 1 using a domino reaction with subsequent lactoniyation. 

Chloro 1 3 butadiene (chloroprene) is the monomer from which the elastomer neoprene IS prepared 2 Chloro 1 3 butadiene is the thermodynamically controlled product formed by addi tion of hydrogen chloride to vinylacetylene (H2C=CHC=CH) The principal product under conditions of kinetic control is the allenic chlonde 4 chloro 1 2 butadiene Suggest a mechanism to account for the formation of each product... 

A variety of chiral amides as well as oxazolidones388 and imidazolidones389,390 may easily be prepared from amino alcohols that are derived from amino acids391 392. The addition of the lithium enolates of these amides under kinetically controlled conditions to a,/i-unsaturated esters yields optically active pentanedioates. Both syn- and //-5-amino-5-oxopcntanoates may be obtained with good diastereomeric ratios192. 

High enantioselectivities may be reached using the kinetic controlled Michael addition of achiral tin enolates, prepared in situ, to a,/i-unsaturated carbonyl compounds catalyzed by a chiral amine. The presence of trimethylsilyl trifluoromethanesulfonate as an activator is required in these reactions236. Some typical results, using stoichiometric amounts of chiral amine and various enolates are given below. In the case of the l-(melhylthio)-l-[(trimethylsilyl)thio]ethene it is proposed that metal exchange between the tin(II) trifluoromethanesulfonate and the ketene acetal occurs prior to the 1,4-addition237,395. 

This type of asymmetric conjugate addition of allylic sulfinyl carbanions to cyclopen-tenones has been applied successfully to total synthesis of some natural products. For example, enantiomerically pure (+ )-hirsutene (29) is prepared (via 28) using as a key step conjugate addition of an allylic sulfinyl carbanion to 2-methyl-2-cyclopentenone (equation 28)65, and (+ )-pentalene (31) is prepared using as a key step kinetically controlled conjugate addition of racemic crotyl sulfinyl carbanion to enantiomerically pure cyclopentenone 30 (equation 29) this kinetic resolution of the crotyl sulfoxide is followed by several chemical transformations leading to (+ )-pentalene (31)68. 

In the construction of carbocycles, five-membered ring formation has been used for preparing fused cyclic compounds, such as functionalized diquinanes. ° The reaction of 36 with (TMSlsSiH furnished the expected product 37 in 80% yield and in a or.fi ratio of 82 18, as the result of a kinetic controlled reaction (Reaction 43). 

To examine whether the breakdown in equilibration arose from a slow rate of equilibration or if the equilibrium does not favor the equatorial alkyllithium,the time course of equilibration was investigated (Scheme 34). The diastereomeri-cally pure a-alkoxystannanes 198 were prepared in analogy to Linderman s procedures 170], and their equilibrations were examined. Transmetallation and alkylation under kinetic control (entries 1 and 2) provided the expected equatorial and axial adducts, respectively, with no detectable minor isomer. Attempted equilibrations of the axial stannanes (entries 4 and 6) led to mixtures of axial and equatorial products. The equatorial stannane gave only the equatorial adduct under both equilibration conditions (entries 3 and 5). From these data, the authors concluded that the equilibration does take place under these conditions, and that the equilibrium lies essentially completely toward the equatorial alkyllithium. The observed product ratios in entries 4 and 6 can be attributed to a slow rate of equilibration. 

In general, a preparation of mixed monolayer can be realized by either a kinetic control or a thermodynamic control (Figure 1, left). Kinetic control is based on a suggestion that for an initial deposition step the desorption rate is ignorable in comparison with the adsorption rate. In this case, the concentration ratio of the adsorbed species A and B on the surface corresponds to the ratio of products of their adsorption rate constant ( a or b) and concentration (Ca or Cb) A aCa/A bC b. The validity of the initial assumption on low desorption rate means that the total surface coverage obtained under kinetic control is essentially lower than 100%. This non-complete coverage does not disturb most of optical applications of the... 

Many synthetic methods for the preparation of nanodispersed material have been reported, several routes applying conventional colloidal chemistry, with others involving the kinetically controlled precipitation of nanocrystallites using organometallic compounds.3 6-343 Controlled precipitation reactions yield dilute suspensions of quasi-monodispersed particles. This synthetic method sometimes involves the use of seeds of very small particles for the subsequent growth of larger ones.359 360... 

This procedure illustrates a fundamentally new method for constructing substituted tetrahydrofurans.5-10 This practical method assembles the tetrahydrofuran ring from allylic diol and carbonyl components and in the process forms three ring bonds C(2)-C(3), C(4)-C(5) and 0-C(5). Both aldehydes (eq 1) and ketones (illustrated in the present procedure) can be employed as the carbonyl component. Although it is often convenient to isolate the acetal intermediate, conversion to the 3-acyltstrahydrofuran can also be accomplished in many cases by the direct reaction of the diol and carbonyl components.8 High ds stereoselectivity (at least 20 1) is observed in the preparation of tetrahydrofurans that contain single side chains at carbons 2 and 5 (eq 1). The kinetically controlled product also has the cis relationship of these side chains and the 3-acyl substituent. 

In contrast, the opposite result was observed when these materials were used in the acylation of a bulky substrate (2-methoxynaphthalene, 2-MN). In this case, l-acetyl-2-metoxynaphthalene (1-A,2-MN) and 6-acetyl-2-metoxynaphthalene (6-A,2-MN) are the main reaction products (Scheme 2). The latter is an intermediate for the preparation of Naproxen (antiinflammatory drug) and, therefore, the most interesting product. Initially, 2-MN acylation leads to 1-A,2-MN (the kinetically controlled product). However, at long times, the selectivity to 6-A,2-MN usually increases due to two secondary reactions transacylation of 1-A,2-MN with a molecule of 2-MN and protodeacylation of 1-A,2-MN yielding 2-MN [7],... 

The first silicon-organophosphorus betaine with a thiolate center (15a) was synthesized by the reaction of stable silanethione (14) with trimethyl-methylenephosphorane (Scheme 8) and characterized by multinuclear NMR spectroscopy.14 Compound 15a is formed under kinetic control and is transformed, under the thermodynamically controlled conditions, into the silaacenaphthene salt (16). The processes presented in this scheme reflect the competition of the basicity and nucleophilicity of phosphorus ylides. Betaine 15b prepared from less nucleophilic and less basic ylide with phenyl substituents at the phosphorus atom is much less resistant toward retro-decomposition compared to the alkyl analog. Its equilibrium concentration does not exceed 6%. 

It has been known since the 19th century that hexacyanoferrates(II) react with concentrated sulphuric acid to give carbon monoxide the preparation of [Fe(CN)5(CO)]3- from these reagents was reported in 1913. It now seems likely that the conversion of coordinated -CN into -CO proceeds through -CONH2, here as in certain iron-containing hydrogenases (139). The stereospecific formation of/rac-[Fe(CN)3(CO)3]-then ds-[Fe(CN)4(CO)2]2- from [Fe(CO)4I2], as well as the stereospecific production of t vans - [Fe (CN), (CO )212 - from iron(II) chloride plus cyanide in an atmosphere of CO, appears to be under kinetic control, cis-[Fe(CN)4(CO)2]2- decomposes in minutes in aqueous solution, whereas... 

In addition to the asymmetric induction mentioned above, sultam 53 can also be used to prepare enantiomerically pure amino acids (Scheme 2-29 and Table 2-10).55 Me AI-mediated acylation of 53 with methyl A-[bis(methylthio)-methylene]glycinate 56 provided, after crystallization, glycinate 57, which can serve as a common precursor for various a-amino acids. In agreement with a kinetically controlled formation of chelated (Z)-enolates, alkylation happened from the SZ-face of the a-C, opposite to the lone pair electrons on the sultam nitrogen atom. High overall yield for both the free amino acid 58 and the... 

In many cases, however, the silicas are formed under kinetic control,16 and not thermodynamic, resulting often in living materials that undergo structural modifications, and thus changes in reactivity, even months after preparation (Figure 5.5). 

Silver tetrafluoroborate in ether or toluene has also been used for the synthesis of glycosyl fluorides. Peracetylated 2-chloro-2-deoxy-D-gluco- and -mannopyranosyl fluorides have been prepared by treatment of the corresponding chlorides with the aforementioned reagent.50,51 Products of kinetic control were obtained when diethyl ether was used as the solvent, whereas products of thermodynamic control were obtained when toluene was used instead. Peracetylated... 

The pseudorotaxane 21 was then converted into the [2]rotaxane 22 (in 30% yield) after the covalent attachment, under kinetic control, of bulky groups at both ends of the axle. The same methodology can be employed to prepare [3]ro-taxanes such as 23 shown in Scheme 14 [57]. 

Earlier studies had demonstrated that such enolates would participate in aldol condensations with aldehydes however, the stereochemical aspects of the reaction were not investigated (68). For the cases summarized in Table 25, the zirconium enolates were prepared from the corresponding lithium enolates (eq. [54]). Control experiments indicated that no alteration in enolate geometry accompanies this ligand exchange process, and that the product ratio is kinetically controlled (35). From the cases illustrated, both ( )-enolates (entries A-E) and (Z)-enolates (entries F-H) exhibit predominant kinetic erythro diastereoselection. Although a detailed explanation of these observations is clearly speculative, certain aspects of a probable... 

The method of preparation of the alumina has a marked effect on the product distribution as shown in Table VIII (47). Over the pure alumina (P) the olefinic products are nearly equilibrated. The alkali-containing catalysts, however, give kinetically controlled products. The very low activity of these catalysts for olefin isomerization had been ascertained independently. It may, therefore, be concluded that the compo.sition of the olefins produced at 350° is very nearly that of the primary dehydration products. 

The versatile cyclohexa-1,4-diene 32a has served as an intermediate for synthesis of (—)-eburnamonine 81 and the Aspidosperma alkaloid (—)-aspidospermidine 84 (Scheme 18).3s Butyrolactone carboxylic acids 78 and 82 were prepared from 32 by modification of the methodology outlined in Scheme 7. The key Pictet-Spengler-type cyclization of 79 under conditions of kinetic control gave an 18 1 mixture of 80 and its C(3) (3-epimer in 93% yield. Subsequent hydroboration... 

It has been demonstrated that organotin-mediated multiple carbohydrate esterifications can be controlled by the acytaring reagent and the solvent polarity. When acetyl chloride is used, the reactions are under thermodynamic control, whereas when acetic anhydride is employed, kinetic control takes place. Very good selectivity can furthermore be obtained in more polar solvents. These results can be used in the efficient preparation of prototype carbohydrate structures. 

Fig. 32. Pore size distribution of macroporous epoxies prepared via kinetically controlled CIPS with 1 wt % catalyst...

---