Diels-Alder reactions simple

Oxidation of thiochromones does not lead to the sulfoxide or sulfone derivatives these are better prepared from the corresponding thiochromanones by oxidation followed by bromination and dehydrobromination. The 1-oxide is an extremely reactive species and gives a Diels-Alder adduct with butadiene. The 1,1-dioxide is also very reactive. Photolysis in benzene affords a 2 1 adduct in 30% yield (116) (79TL1097) via an initial [2 + 2] addition followed by a Diels-Alder reaction. Simple [2 + 2] addition is found with cyclohexene. 

From the numerous ir-systems investigated, nitrogen-containing dienophiles are the most typical carbonyl derivatives for hetero Diels-Alder reactions. Simple imines, however, are quite unreactive and require highly reactive dienes as counterparts. - In contrast, electron-deficient species, such as iminium salts (134 Scheme 63) or N-acylimines (137 Scheme 64), do undergo [4 -t- 2] cycloadditions with normal nonactivated dienes. Thus, the intramolecular Diels-Alder reaction of the iminium species (134), created in situ from the aldehyde (133) and ammonia, gives the octahydroquinoline (135), which can be hydrogenated to afford the 8a-epimer of pumiliotoxin C (Scheme 63). ... 

As with regioselectivity, the issue of endo- versus exo-selectivity in aqueous Diels-Alder reactions (simple diastereoselectivity) is also under FMO control. However, the unique solvent properties of water lead to an enhancement of endo-selectivity that goes beyond well-known solvent polarity effects. For example, Breslow s group looked at the endo/exo product ratios for the reaction of cyclopentadiene and several dienophiles (Table 1.5) [39,... 

Turning the argument around reactions that do not involve proton transfer steps will only experience a significant effect of the Lewis acids if a direct interaction exists between catalyst and reactant. The conventional Diels-Alder reaction is a representative of this class of reactions. As long as monodentate reactants are used, the effects of Lewis acids on this reaction do not exceed the magnitude expected for simple salt effects, i.e. there are no indications for a direct interaction between Lewis-acid and substrate. 

Simple cyclobutanes do not readily undergo such reactions, but cyclobutenes do. Ben-zocyclobutene derivatives tend to open to give extremely reactive dienes, namely ortho-c]uin(xlimethanes (examples of syntheses see on p. 280, 281, and 297). Benzocyclobutenes and related compounds are obtained by high-temperature elimination reactions of bicyclic benzene derivatives such as 3-isochromanone (C.W. Spangler, 1973, 1976, 1977), or more conveniently in the laboratory, by Diels-Alder reactions (R.P. Thummel, 1974) or by cycliza-tions of silylated acetylenes with 1,5-hexadiynes in the presence of (cyclopentadienyl)dicarbo-nylcobalt (W.G, Aalbersberg, 1975 R.P. Thummel, 1980). 

Frontier orbital analysis is a powerful theory that aids our understanding of a great number of organic reactions Its early development is attributed to Professor Kenichi Fukui of Kyoto University Japan The application of frontier orbital methods to Diels-Alder reactions represents one part of what organic chemists refer to as the Woodward-Hoffmann rules a beautifully simple analysis of organic reactions by Professor R B Woodward of Harvard University and Professor Roald Hoffmann of Cornell University Professors Fukui and Hoffmann were corecipients of the 1981 Nobel Prize m chemistry for their work... 

Discussion of ladder polymers also enables us to introduce a step-growth polymerization that deviates from the simple condensation reactions which we have described almost exclusively in this chapter. The Diels-Alder reaction is widely used in the synthesis of both ladder and semiladder polymers. In general, the Diels-Alder reaction occurs between a diene [XVI] and a dienophile [XVll] and yields an adduct with a ring structure [XVlll] ... 

The mechanism of the Diels-Alder reaction is not as simple as usually depicted. This may, in part, explain some of the problems encountered when this reaction has been appHed on an industrial scale. A number of different theories have been proposed for this reaction (50). 

When the Diels-Alder reaction between butadiene and itself is carried out in the presence of alkah metal hydroxide or carbonate (such as KOH, Na2C02, and K CO on alumina or magnesia supports) dehydrogenation of the product, vinylcyclohexene, to ethylben2ene can occur at the same time (134). The same reaction can take place on simple metal oxides like Zr02, MgO, CaO, SrO, and BaO (135). 

Another chiral titanium reagent, 11, was developed by Corey et al. [17] (Scheme 1.24). The catalyst was prepared from chiral ris-N-sulfonyl-2-amino-l-indanol and titanium tetraisopropoxide with removal of 2-propanol, followed by treatment with one equivalent of SiCl4, to give the catalytically-active yellow solid. This catalyst is thought not to be a simple monomer, but rather an aggregated species, as suggested by NMR study. Catalyst 11 promotes the Diels-Alder reaction of a-bro-moacrolein with cyclopentadiene or isoprene. 

Several highly enantioselective Diels-Alder reactions are known for which the di-enophile does not fit any of the above classes. Corey and coworkers applied the chiral aluminum reagent 36 with a C2-symmetric stilbenediamine moiety (videsu-pra) to the Diels-Alder reaction of maleimides as dienophiles [54] (Scheme 1.68). In most asymmetric Diels-Alder reactions the reactants are usually relatively simple dienes such as cyclopentadiene or monosubstituted butadienes, and unsym-... 

The reactivity of the carbo-Diels-Alder reaction, as well as the other reactions considered in this chapter, can be accounted for by a simple FMO line of reasoning, i.e., the energy term from second-order perturbation theory... 

For the ordinary Diels-Alder reaction the dienophile preferentially is of the electron-poor type electron-withdrawing substituents have a rate enhancing effect. Ethylene and simple alkenes are less reactive. Substituent Z in 2 can be e.g. CHO, COR, COOH, COOR, CN, Ar, NO2, halogen, C=C. Good dienophiles are for example maleic anhydride, acrolein, acrylonitrile, dehydrobenzene, tetracya-noethylene (TCNE), acetylene dicarboxylic esters. The diene preferentially is of the electron-rich type thus it should not bear an electron-withdrawing substituent. 

The Diels-Alder reaction is the most important method for the construction of six-membered rings. For example it can be used as a step in a benzo-anellation procedure. The experimental procedure is simple, and yields are generally good side reactions play only a minor role. 

Reactions under pressure are usually carried out in an autoclave. However, several simple vessels can be used for reactions at moderate pressure. A heavy walled Pyrex test tube or Kjeldahl flask drawn out and sealed with an oxygen torch makes a suitable container for many Diels-Alder reactions. The tube can be heated in an oil or water bath, but care must be exercised to protect against explosions. At the conclusion of the reaction, the tube is cooled to room temperature, the neck is scratched with a file or carborundum chip, and a hot Pyrex rod is touched to the scratch. A large crack in the neck should result, and the sealed top can be easily knocked off. 

Based on the facile formation and reactivity of323, and the retro Diels-Alder reaction of 325306,310, a simple procedure has been developed for the stereoselective synthesis of functionalized conjugated dienes as well as vinylallenes311 (see equation 119). 

The Diels-Alder reaction of simple alkoxy alkenylcarbene complexes leads to mixtures of endo and exo cycloadducts, with the endo isomer generally being the major one [96,97]. Asymmetric examples of endo Diels-Alder reactions have also been reported by the use of chiral auxiliaries both on the carbene complex and the diene. Thus, the reaction of cyclopentadiene with chiral alkenylcarbene complexes derived from (-)-menthol proceeds to afford a 4 1... 

The Diels-Alder cycloaddition is the best-known organic reaction that is widely used to construct, in a regio- and stereo-controlled way, a six-membered ring with up to four stereogenic centers. With the potential of forming carbon-carbon, carbon-heteroatom and heteroatom-heteroatom bonds, the reaction is a versatile synthetic tool for constructing simple and complex molecules [1], Scheme 1.1 illustrates two examples the synthesis of a small molecule such as the tricyclic compound 1 by intermolecular Diels-Alder reaction [2] and the construction of a complex compound, like 2, which is the key intermediate in the synthesis of (-)chlorothricolide 3, by a combination of an intermolecular and an intramolecular Diels-Alder cycloaddition [3]. 

Lewis-acid catalyzed inverse electron-demand Diels-Alder reactions between conjugated carbonyl compounds and simple alkenes and enolethers also allow dihydropyranes to be prepared. SnCU-Catalyzed cycloaddition of... 

Simple imines are poor dienophiles and must be activated by protonation or by attaching an electron-withdrawing group to the nitrogen atom. Scheme 6.10 illustrates the Diels-Alder reactions of benzyliminium ion 25, generated in situ from an aqueous solution of benzylamine hydrochloride and commercial aqueous formaldehyde, with methylsubstituted 1,3-butadienes [22]. This aqueous Diels-Alder reaction combines three components (an aldehyde, an amine... 

In the Diels-Alder reaction a double bond adds 1,4 to a conjugated diene (a 2 + 4 cycloaddition), so the product is always a six-membered ring. The double-bond compound is called a dienophile. The reaction is easy and rapid and of very broad scope and reactivity of dienes and dienophiles can be predicted based on analysis of the HOMOs and LUMOs of these species. Ethylene and simple alkenes make poor dienophiles, although the reaction has been carried out with these compounds. 

Simple Example Lewis acids, such as AlCl, catalyse the Diels-Alder reaction. Workers used a three-fold excess of butadiene to react with the AlCl complex of 5,6 and 7-membered cyclic enones, e.g, (5), giving excellent yields of eie fused bicyclic ketones (6), Me and H must be cis in (6) as they were aiv in (5). 

Examples Compound <35) is a double diene, capable of Diels-Alder reactions on the simple diene and on the furan ring and it was required to try out a route to polycyclic compounds using both these reactions, Wittig disconnection direct to available aldehyde (36) and easily made (37) is possible, but the alternative Wittig disconnection to (38) takes advantage of the known simple and high yielding condensation of acetone with (36). 

The Diels-Alder reaction, in which two alkenes combine to give a new product, is one of the most frequently used reactions for the synthesis of organic compounds. Thousands of examples are found in the chemical literature. The reaction of butadiene is a simple example. 

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