Chemical reaction Diels-Alder

This chapter deals with [2 + 2], [4 + 2], [6 + 4], [8 + 2] and [2 + 2 + 2] cycloaddition reactions of dienes and polyenes. Most attention is devoted to the [4 + 2] cycloaddition reaction (Diels-Alder reaction) which is likely to be the most studied reaction in the chemical literature. 

Furan [110-00-9] - [BUTADIENE] (Vol 4) - [FURANDERIVATIVES] (Supplement) -from butenediol [ACETYLENE-DERIVED CHEMICALS] (Voll) -Diels-Alder reaction [MALEIC ANHYDRIDE, MALEIC ACID AND FUMARIC ACID] (Vol 15) -from waste combustion [FUELS FROM WASTE] (Vol 12)... 

Sonochemistry has been applied to acceleration of the Reformatsky reaction, Diels-Alder reactions, the arylation of active methylene compounds nucleophilic aromatic substitution of haloarenes, and to hydrostannation and tin hydride reduction. " Other sonochemical applications involve the reaction of benzyl chloride and nitrobenzene, a Sr I reaction in liquid ammonia at room temperature, and Knoevenagel condensation of aromatic aldehydes. lodination of aliphatic hydrocarbons can be accelerated, and oxyallyl cations have been prepared from ot,ot -diiodoketones using sonochemistry. Sonochemistry has been applied to the preparation of carbohydrate compounds.When sonochemistry is an important feature of a chemical reaction, this fact will be noted in the reactions presented in Chapters 10-19. 

What is generally wished for in the quantum chemical computations is a reaction profile. As we have seen in this chapter, the electronic structure is remarkably affected by surrounding solvent molecules, which means that reactions are strongly governed (and controlled) by the environment as well. Three chemical reactions, Sn2 type reaction, Diels-Alder reaction and redox process, are described in this section. 

Cycloaddition reactions are one of the most important organic chemical reactions. Diel s-Alder reaction, is the most popular example of cycloaddition reaction and known to every serious student of organic chemistry. Cycloaddition provides route to synthesise cyclic compounds from acyclic reactants. 

The unique reactivity of eleostearic acid enhances its participation in a variety of chemical reactions, such as carbon-carbon double bond addition, acid-base reactions, esterifications, reduction reactions, Diels-Alder reactions, and thermal polymerization. Recent descriptive examples of a few of these reactions, and how they can be applied to the production of various useful products, are listed in the following section. 

Robinson, J.M., Sakai, T., Okano, K., Kitawaki, T. and Danheiser, R.L. (2010) Formal [24-24-2] cycloaddition strategy based on an intramolecular propargylic ene reaction/Diels-Alder cycloaddition cascade. Journal of the American Chemical Society, 132(32), 11039-11041. 

Chemists usually learn about reactions according to fiinctional groups for example, How can I make an aldehyde and what reactions are known for aldehydes " This is clearly not a very good starting point for classifying reactions. The poor state of affairs in the definition of reaction types is further quite vividly illustrated by the fact that many chemical reactions are identified by being named after their inventor Diels-Alder reaction, Michael addition, Lobry-de Bruyn-van Ekenstein rear-... 

Fig. 5.35 Geometry predicted by CASSCF ab initio calculations of the two possible transition structure geometries for the Diels-Alder reaction between ethene and butadiene. (Figure adapted from Houk KN, J Gonzalez and Y Li 1995. Pericyclic Reaction Transition States Passions and Punctilios 1935-1995. Accounts of Chemical Research 28 81-90.)...

W C, A Tempcz)rrk, R C Hawley and T Hendrickson 1990. Semianalytical Treatment of Solvation for Molecular Mechanics and Dynamics. Journal of the American Chemical Society 112 6127-6129. ensson M, S Humbel, R D J Froese, T Matsubara, S Sieber and K Morokuma 1996. ONIOM A Multilayered Integrated MO + MM Method for Geometry Optimisations and Single Point Energy Predictions. A Test for Diels-Alder Reactions and Pt(P(t-Bu)3)2 + H2 Oxidative Addition. Journal of Physical Chemistry 100 19357-19363. 

Figure 1.5. Chemical potential of the initial state, the transition state and the product of the Diels-Alder reaction between methyl vinyl ketone and cyclopentadiene in water as compared to 1-propanol The data are taken from r. 56.

In the case of the retro Diels-Alder reaction, the nature of the activated complex plays a key role. In the activation process of this transformation, the reaction centre undergoes changes, mainly in the electron distributions, that cause a lowering of the chemical potential of the surrounding water molecules. Most likely, the latter is a consequence of an increased interaction between the reaction centre and the water molecules. Since the enforced hydrophobic effect is entropic in origin, this implies that the orientational constraints of the water molecules in the hydrophobic hydration shell are relieved in the activation process. Hence, it almost seems as if in the activated complex, the hydrocarbon part of the reaction centre is involved in hydrogen bonding interactions. Note that the... 

Note that the stereochemistry comes out right. H s a and b are cis because they were cis in the starting quinone and the Diels-Alder reaction is stereospecific in this respect. H is also cis to and H " because the Diels-Alder reaction is stereoselectively endo. These points are described in more detail in Norman p.284-6 and explained in Ian Fleming Frontier Orbitals and Organic Chemical Reactions, Wiley 1976, p. 106-109. How would you make diene A ... 

Let us now examine the Diels-Alder cycloaddition from a molecular orbital perspective Chemical experience such as the observation that the substituents that increase the reac tivity of a dienophile tend to be those that attract electrons suggests that electrons flow from the diene to the dienophile during the reaction Thus the orbitals to be considered are the HOMO of the diene and the LUMO of the dienophile As shown m Figure 10 11 for the case of ethylene and 1 3 butadiene the symmetry properties of the HOMO of the diene and the LUMO of the dienophile permit bond formation between the ends of the diene system and the two carbons of the dienophile double bond because the necessary orbitals overlap m phase with each other Cycloaddition of a diene and an alkene is said to be a symmetry allowed reaction... 

A very large number of Diels-Alder reactions are recorded in the chemical literature many of which involve relatively complicated dienes dienophiles or both On the basis of your knowl edge of Diels-Alder reactions predict the constitution of the Diels-Alder adduct that you would expect to be formed from the following combinations of dienes and dienophiles... 

Chlorendic anhydride is the common name of the Diels-Alder adduct of maleic anhydride and hexachlorocyclopentadiene, 3,4,5,6,7,7-hexachloroendomethylene-l,2,3,6-tetrahydrophthahc anhydride (HET). The resultant resins from HET contribute to the flame retardancy of the alkyd coatings. HET gives a greater reaction rate than phthaUc anhydride, to the extent that at 204—210°C the reaction rate approximates that of phthaUc anhydride at a temperature of 238°C (8). However, the resins tend to develop darker color, particularly at high processing temperature. Tetrachlorophthahc anhydride [117-08-8] made by conventional chlorination of phthaUc anhydride, would also impart flame retardancy to its alkyds. However, it is appreciably less soluble in the usual processing solvents than is phthaUc anhydride, and is reported to be of appreciably lower chemical reactivity (8). 

Flame Retardants. Although the use of chlorinated derivatives of DCPD has been restricted in the pesticide area, some are widely used in flame and fire retardant chemicals (see Flame retardants). The starting material is the fliUy chlorinated DCPD cracked to monomeric hexachlorocyclopentadiene, which is then converted via a Diels-Alder reaction with maleic anhydride to a reactive bicycHc anhydride (9), known as chlorendic anhydride [115-27-5]. 

Molecular orbital calculations indicate that cyclo C-18 carbyne should be relatively stable and experimental evidence for cyclocarbynes has been found [25], Fig. 3B. Diederich et al [25] synthesised a precursor of cyclo C-18 and showed by laser flash heating and time-of flight mass spectrometry that a series of retro Diels-Alder reactions occurred leading to cyclo C-18 as the predominant fragmentation pattern. Diederich has also presented a fascinating review of possible cyclic all-carbon molecules and other carbon-rich nanometre-sized carbon networks that may be susceptible to synthesis using organic chemical techniques [26]. 

Dimethylquinoxaline (303) has been reported to undergo a Diels-Alder reaction with maleic anhydride to give 304, 305 having been postulated to be the reactive form. However, attempted confirmation of this unexpected result has shown that 304 is not the correct structure of the reaction product. " In 1931, other chemical evidence was advanced in support of structure 305,but it would no longer be considered valid. 

The borane catalyst 4 is also effective in the Diels-Alder reaction of furan (Scheme 1.11). In the presence of a catalytic amount of this reagent a-bromoacro-lein or a-chloroacrolein reacts with furan to give the cycloadduct in very good chemical yield with high optical purity [6d]. 

Below is a table of asymmetric Diels-Alder reactions of a,/ -unsaturated aldehydes catalyzed by chiral Lewis acids 1-17 (Fig. 1.10, 1.11). The amount of catalyst, reaction conditions (temperature, time), chemical yield, endojexo selectivity, and optical purity are listed (Table 1.32). 

Several examples of catalytic aza Diels-Alder reactions using the chiral zirconium catalyst are shown in Table 5.5 [18]. High chemical yields and good to high... 

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