Carbonyl systems

Hydrogen bonding to a carbonyl group causes a shift to lower frequency of 40 to 60 cm k Acids, amides, enolized /3-keto carbonyl systems, and o-hydroxyphenol and o-aminophenyl carbonyl compounds show this effect. All carbonyl compounds tend to give slightly lower values for the carbonyl stretching frequency in the solid state compared with the value for dilute solutions. 

Hydantoins can react with electrophiles at both nitrogen atoms and at C-5. The electrophilic carbonyl groups can be attacked by nucleophiles, leading to hydrolysis of the ring or to partial or total reduction of the carbonyl system. Other reactions are possible, including photochemical cleavage of the ring. 

While the usual eonsequence of hydration of enamines is eleavage to a secondary amine and an aldehyde or ketone, numerous cases of stable carbinolamines are known (102), particularly in examples derived from cyclic enamines. The selective terminal hydration (505) of a cross-conjugated dienamine-vinylogous amide is an interesting example which gives an indication of the increased stabilization of the vinylogous amide as compared to simple enamines, which is also seen in the decreased nucleophilicity of the conjugated amino olefin-carbonyl system. 

Compute the frequency associated with carbonyl stretch in solution with acetonitrUe for the carbonyl systems we looked at in the gas phase in Chapter 4. Run your calculations using RHF/6-31+G(d) with the Onsager SCRF model. Discuss the substituent effect on the predicted solvent effects. 

With a,p-dihalo- or a-halo-a,p-unsaturated carbonyl derivatives A significant number of examples exist in which a,P-dihalogenated carbonyl derivatives undergo reactions with thioglycolates in the presence of base to produce thiophenes. " The reactions have been shown to occur through intermediate a-halo-a,P-unsaturated carbonyl derivatives produced by the elimination of HX. Thus the use of a-halo-a,P unsaturated carbonyl systems in place of the a,P-dihalocarbonyl compounds was found to efficiently provide thiophenes upon reaction with thioglycolates. In a modification of the work of Fiesselmann, readily accessible methyl-2-chloroacrylate 23 and 2-chloroacrylonitrile 24 have been used in this sense to provide 25 and 26, respectively. 

The behavior of such activated halides as alkylating agents under Friedel-Crafts conditions expands the scope of the synthesis. Aluminum chloride enhances the electrophilic character of the a,/S-unsaturated carbonyl system and permits the nucleophilic attachment of the aromatic addendum (Y ) to the carbon bearing the positive charge, with displacement of halogen [Eq. (5)]. Thus,... 

No comparative kinetic study has been made on the same alkyl carbonyl system for two members of a given transition metal triad. Qualitative data show that the middle member is more reactive than the heaviest one e.g., CpMo(CO)jR > CpW(CO)jR (Section VI,B), Rh(III) > Ir(III) (Section VI,E), and Pd(II) > Pt(II) (Section VI,F). However, the extreme unreactivity of CpW(CO)jR and a considerable difference in lability between most alkyls of Rh(III) and Ir(III), as well as those of Pd(II) and Pt(II), have prevented detailed investigations. Surprisingly, no kinetic studies have been conducted on insertion reactions of RRe(CO)5, which would seem readily amenable to such investigations. 

The fluorines of a CF2 = group of an a,P-unsaturated carbonyl system are considerably deshielded, and the geminal and vicinal coupling con-... 

Despite the considerable amount of information that has been garnered from more traditional methods of study it is clearly desirable to be able to generate, spectroscopically characterize and follow the reaction kinetics of coordinatively unsaturated species in real time. Since desired timescales for reaction will typically be in the microsecond to sub-microsecond range, a system with a rapid time response will be required. Transient absorption systems employing a visible or UV probe which meet this criterion have been developed and have provided valuable information for metal carbonyl systems [14,15,27]. However, since metal carbonyls are extremely photolabile and their UV-visible absorption spectra are not very structure sensitive, the preferred choice for a spectroscopic probe is time resolved infrared spectroscopy. Unfortunately, infrared detectors are enormously less sensitive and significantly slower... 

Most hydroformylation investigations reported since 1960 have involved trialkyl or triarylphosphine complexes of cobalt and, more recently, of rhodium. Infrared studies of phosphine complex catalysts under reaction conditions as well as simple metal carbonyl systems have provided substantial information about the postulated mechanisms. Spectra of a cobalt 1-octene system at 250 atm pressure and 150°C (21) contained absorptions characteristic for the acyl intermediate C8H17COCo(CO)4 (2103 and 2002 cm-1) and Co2(CO)8. The amount of acyl species present under these steady-state conditions increased with a change in the CO/ H2 ratio in the order 3/1 > 1/1 > 1/3. This suggests that for this system under these conditions, hydrogenolysis of the acyl cobalt species is a rate-determining step. 

A number of catalysts are known to effect homogeneous hydrogenation of aromatic hydrocarbons, e.g., some oxidized rhodium complexes (/, p. 238), some rhodium 7r-complexes with phenyl carboxylates (/, p. 283), some Ziegler systems (/, p. 363), and Co2(CO)8 (/, p. 173). However, the catalysts in the first three systems are not well characterized, and the carbonyl systems require fairly severe hydroformylation conditions, although they are reasonably selective, possibly via radical pathways (Section II, C). 

The use of an anionic reagent for addition at carbonyl carbon rather than a fully esterified form of a trivalent phosphorus acid obviates a troublesome aspect of the Abramov reaction. Specifically no dealkylation step is required. Mechanistic investigations257 258 indicate that the reaction proceeds much as a simple "aldol"-type reaction in which the anionic phosphorus site adds directly to the carbonyl center. While the initial efforts concerned with the "Pudovik reaction"259 were directed toward the use of sodium salts of the simple dialkyl phosphites, as shown in Equation 3.17,260 266 with a, 5-unsaturated carbonyl systems (vide infra) competition between sites for addition can occur. Addition at the carbonyl carbon site is the kinetically favored route.267-270... 

The addition of phosphorus reagents, either trialkyl phosphites or dialkyl phosphite anions, to the P-carbon atom of a,P-unsaturated carbonyl systems has been studied extensively. (This is the fundamental hydrophosphinylation reaction as considered in Chapter 3.) An interesting situation arises when the P-carbon site also bears a... 

Pd-catalyzed double carbonylation reactions are rare due to the inefficiency of formation of bis-carbonylation products. Addition of bulky tricyclohexylphosphine to the normal carbonylation system greatly facilitated the formation of the double carbonylation product. Subjecting 4-iodopyridine 199 to such conditions afforded primarily 4-pyridylglyoxylic acid derivative 200, which was not easily attainable via classical synthetic methods [159]. The monoamide 201 was isolated as a minor by-product. 

Actually at nuclearity four, which represents the border between 2- and 3-dimensional structures, both types of structures are observed, and therefore in the present review we will discuss all transition metal tetranuclear carbonyl systems in which there are metal-metal bonds. We hope to have covered the literature comprehensively up to the end of 1975. 

Further development of this idea led to the proposal (56) that reactive B=C groups, for instance carbonyl systems, would be able to activate alcohol acceptors AH by generating a related A—B—C—H intermediate (Scheme 8, path I). It seemed that chloral might act as a catalyst along these lines. However, it turned out that the rate of decay in the transition state is too low in all systems tested thus far. Therefore, the carbonyl compound is more or less a substitute for a Lewis acid catalyst, as indicated in Scheme 8, path II. The high reactivity and diastereoselectivity in chloral-catalyzed reactions is attributable to the nitriles used as solvents in these reactions [see Section III.3.b and Ref. (62)]. 

This disilene undergoes Diels. Alder reaction with 1, 3 diene addition to acetylene and a single example of reaction with a carbonyl system. 

The conventional conversion of carbonyl systems by sulphur tetrafluoride into difluoroalkyl compounds has been modified in the reaction of dithioacetals with tetra-n-butylammonium dihydrogentrifluoride and A -bromo- or AModosuccinimide. Yields of the difluoroalkanes are generally in excess of 70% [35]. 

The a,P-unsaturated ketone or ester (0.3 mol), Na2CO, (7.95 g) and TBA-C1 (8.334 g, 30 mmol) in DMF (5 ml) are stirred for 10 min at room temperature. Pd(OAc)2 (0.33 g, 1.47 mmol) is then added and the mixture is stirred for a further 5 min before the iodoalkyne (30 mmol) in DMF is added dropwise over 1 h. The mixture is then stirred for 3-6 h at room temperature until GLC analysis indicates the complete consumption of the alkyne. The volatile material is evaporated and Et20 (150 ml) is added. The ethereal mixture is filtered through Celite, washed with H20 (50 ml), dried (MgS04), and evaporated to yield the conjugate carbonyl system (50-60%). 

---