Five-membered cyclic

Diols that bear two hydroxyl groups m a 1 2 or 1 3 relationship to each other yield cyclic acetals on reaction with either aldehydes or ketones The five membered cyclic acetals derived from ethylene glycol (12 ethanediol) are the most commonly encoun tered examples Often the position of equilibrium is made more favorable by removing the water formed m the reaction by azeotropic distillation with benzene or toluene... 

Hydroxy acids compounds that contain both a hydroxyl and a carboxylic acid function have the capacity to form cyclic esters called lactones This intramolecular esterification takes place spontaneously when the ring that is formed is five or six membered Lac tones that contain a five membered cyclic ester are referred to as 7 lactones, their six membered analogs are known as 8 lactones... 

Aldoses incorporate two functional groups C=0 and OH which are capable of react mg with each other We saw m Section 17 8 that nucleophilic addition of an alcohol function to a carbonyl group gives a hemiacetal When the hydroxyl and carbonyl groups are part of the same molecule a cyclic hemiacetal results as illustrated m Figure 25 3 Cyclic hemiacetal formation is most common when the ring that results is five or SIX membered Five membered cyclic hemiacetals of carbohydrates are called furanose forms SIX membered ones are called pyranose forms The nng carbon that is derived... 

Notice that the eclipsed conformation of d ribose derived directly from the Fischer pro jection does not have its C 4 hydroxyl group properly oriented for furanose ring forma tion We must redraw it m a conformation that permits the five membered cyclic hemi acetal to form This is accomplished by rotation about the C(3)—C(4) bond taking care that the configuration at C 4 is not changed... 

Dicyano-l,2,3-trithiole 2-oxide (143) has been prepared from the silver salt of 2,3-dimercaptomaleonitrile (142) and thionyl chloride (66HC(2l-i)67). Similarly, the reaction of ethylene glycol (144) with thionyl chloride gave 1,3,2-dioxathiolane 2-oxide (145), the parent compound of saturated five-membered cyclic sulfites (see Chapter 4.33). 

An illustration of the tendency of alkane 1,2- and alkane-1,3-dicarboxylie acids to a ring closure during the reaction with sulfur tetrafluoride is the reaction of propane-1,2,3-tricarboxylie acid The corresponding six- and five-membered cyclic ethers are formed in a 1 4 ratio [211] (equation 106)... 

On treatment with sulfur tetrafluoride followed by hydrolysis, D- and L-hy droxysuccimc acids and D-tartanc acid give complex mixtures of products in which the predominant components are five-membered cyclic ethers, derivatives of 2,2,5,5-tetrafluorotetrahydrofuran [209, 272] (equation 108)... 

In cases where information about atomic arrangements cannot be obtained by X-ray crystallography owing to the insolubility or instability of a compound, vibrational spectroscopy may provide valuable insights. For example, the explosive and insoluble black solid SesNaCla was shown to contain the five-membered cyclic cation [SesNaCl]" by comparing the calculated fundamental vibrations with the experimental IR spectrum. ... 

Dipolar cycloadditions of five-member cyclic nitrones to a,(3-unsaturated acid derivatives 99H(50)1213. 

To verify the generality of the cyclization of iodopyrazolecarboxylic acids, copper p-phenylbenzoylacetylide was used in the reaction with 3-iodo-l-methylpyra-zole-4-carboxylic acid. The assumed intermediate, alkynylpyrazolylcarboxylic acid, has a distribution of the electron density which is the most favorable for closure of the five-membered cyclic ether. However, the reaction leads only to the 5-lactone (Scheme 120). 

Evidence that cleavage of 1,2-diols by HIO4 occurs through a five-membered cyclic periodate intermediate is based on kinetic data—the measurement of reaction rates. When diols A and B were prepared and the rates of their reaction with HIO4 were measured, it was found that diol A cleaved approximately 1 million times faster than diol B. Make molecular models of A and B and of potential cyclic periodate intermediates, and then explain the kinetic results. 

Ketones Saturated open-chain ketones and six-membered cyclic ketones absorb at 1715 cm-1., five-membered cyclic ketones absorb at 1750 cm J, and ketones next to a double bond or an aromatic ring absorb at 1690 cm-1. 

Intramolecular Claisen condensations can be carried out with diesters, just as intramolecular aldol condensations can be carried out with diketones (Section 23.6). Called the Dieckmann cyclization, the reaction works best on 1.6-diesters and 1,7-diesters. Intramolecular Claisen cyclization of a 1,6-diester gives a five-membered cyclic /3-keto ester, and cyclization of a 1,7-diester gives a six-membered cyclic /3-keto ester. 

Draw o-ribulose in its five-membered cyclic /3-hemiacetal form. 

Stereoselective reactions of this type known at present only deal with four- or five-membered cyclic iV-acyliminium ions. The reactions with carbon nucleophiles usually lead to rra/u-substi-tuted compounds with very high stereoselectivity due to steric control by the substituent already present in the ring. 

Optically active five- or six-membered cyclic A -acyliminium ions of this type are generated from the a-inethoxy derivatives, easily obtainable through anodic methoxylation of intermediates that are prepared via ex-chiral-pool syntheses from certain natural amino acids. Reaction of 5-substituted five-membered cyclic A -acyliminium ions with various nucleophiles leads to the predominant formation of cw-products with moderate selectivity. The trans-selective reaction with alkyl copper reagents appears to be an exception. 

A few studies have been carried out on the parent four- and five-membered cyclic sulfones—for thietane 1,1-dioxide (30) by Scala and Colon65 and for thiolane 1,1-dioxide (sulfolane) (31) by Honda and coworkers66 and, later, by Schuchmann and von Sonntag67. In the former compound, the major photochemical process, in the vacuum UV range, is the initial production of a trimethylene (C3H6) biradical and S02 (equation 9). In both the solid- (77 K) and gas-phase photolyses, formation of a triplet biradical appears to be favored. As well as the expected cyclopropane and propylene, ethylene is also obtained during these photolyses, presumably by a cycloreversion process (equation 10). 

If 1,4-dihalides are treated with K2pe(CO)4, five-membered cyclic ketones are prepared. ... 

The elimination is of course syn, so the product is sterically controlled. Alkenes that are not sterically favored can be made this way in high yield (e.g., cis-PhCH2CH=CHCH2Ph). Certain other five-membered cyclic derivatives of 1,2-diols can also be converted to alkenes. ... 

This time the cyclisation was more successful, the five membered cyclic ether (25) being formed in excellent yield in acid. 

The site selectivity in this reaction Is excellent -70 - 80% yield of (3) - and It depends on the stability of cyclic transition state (6). This looks at first like a six-membcrcd ring, but N—H—CII2 is linear and shorter than two bonds so that it is somewhere between a five and a six-membered ring.Cyclisation to (3) Is via a conventional five-membered cyclic transition state. Problem ... 

The structure I might form a five-membered cyclic structure on Pd metal and then the structure would be adsorbed at the less bulky side of the molecule. On the other hand, structure II might not form such a cyclic structure because of the steric hindrance. The difference in the ease of formation of the cyclic complex between structure I and II might be an important factor why structure I is a major conformation in the reaction. It is assumed that the adsorpted state of reactants as structure I or II may be influenced by the reaction conditions such as the Pd metal size, resulting in the different enantioselectivity. 

The overall reaction between CO2 and GMA to form five-membered cyclic carbonate is presented as follows [2] ... 

The overall reaction between CO2 and GMA was assumed to consist of two elementary reactions such as a reversible reaction of GMA and catalyst to form an intermediate and an irreversible reaction of this intermediate and carbon dioxide to form five-membered cyclic carbonate. Absorption data for CO2 in the solution at 101.3 N/m were interpreted to obtain pseudo-first-order reaction rate constant, which was used to obtain the elementary reaction rate constants. The effects of the solubility parameter of solvent on lc2/k and IC3 were explained using the solvent polarity. 

The latest syntheses of novel four- and five-membered cyclic anions of the heavier group 14 elements (Si, Ge, Sn) provided a fresh look at the question of aromaticity (or nonaromaticity) of the heavier analogs of 6jt-electron aromatic systems. Thus, the story of the heavy analogs of cyclopentadienyl anion (Section 2.3.2.5) was continued by the preparation of the stannole dianion by Saito and co-workers. ° The stannole dianion 68 Li2 was prepared by the metalation of the bis(Ll-stannole) with an excess of Li in THF at elevated temperatures however, it can be better prepared by the lithiation of hexaphenylstannole with Li in THF under reflux conditions " (Scheme 2.65). 

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