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Carbonyl functional groups condensation reactions

The resistance to cleavage is an indication of the superelectrophilic character of dication 150c. Several aromatic compounds have likewise been shown to produce dicationic species upon the protonation of carboxyl and carbonyl functional groups. Other bis-carboxonium dications have been described involving protonation of carbonyl, amide, and other groups.50 These distonic superelectrophiles (152-153) have been shown to be useful in condensation reactions (eqs 52-53). [Pg.258]

Aluminum atom reactions are relevant to interfacial chemistry associated with aluminum-polyimide junctions. Al deposited under ultra high vacuum will reduce surface carbonyl functional groups (22). MVS co-condensation experiments show that besides ketones, aldehydes and epoxides, atomic aluminum will deoxygenate ethers. Chapter 7 of the monograph by Klabunde (12) includes tables of deoxygenation products of a variety of cyclic and acyclic ketones and ethers. [Pg.247]

Firstly, we have the acetone aldol self-condensation reaction over basic sites to give diacetone alcohol (DAA). Dehydration of this alcohol yeilds mesityl oxide (MSO) winch, in turn, can be selectively hydrogenated over reduced metal sites to finally give methyl isobutyl ketone (MIBK). In addition to the aldol condensation route, the acetone carbonyl functional group can also be directly hydrogenated over reduced metal sites yielding 2-propanol. Other reaction by-products such as methane, propane, diisopropyl ether and diisobutyl ketone have been detected in some experiments, but in very low amounts, lower than 2% of the total reaction products. [Pg.387]

We have intentionally selected example reactions (Figs. 29-33) that would not usually be immediately obvious to a chemist. The examples chosen have all been concerned with rearrangements of various types, since their courses are frequently difficult to predict. It remains to emphasize that the reactivity functions contained in EROS perform perfectly well with other types of reaction. This is true, for example, with reactions that a chemist could derive directly from an analysis of the functional groups in a molecule. Thus, EROS predicts addition reactions to carbonyl compounds, nucleophilic substitutions, and condensation reactions, to name just a few examples. In all these reaction types, the possibility of assigning a quantitative estimate to the reactivity at the various sites via the reactivity functions is of particular merit. It... [Pg.69]

The name aldol is derived from the names of the two functional groups, aldehyde and alcohol, present in the products. The aldol and ketol readily lose water to give a,p-unsaturated carbonyl compounds which are aldol condensation products and the reaction is called Aldol condensation. Though ketones give ketols (compounds containing a keto and alcohol groups), the general name aldol condensation still applies to the reactions of ketones due to their similarity with aldehydes. [Pg.94]

With the aid of a Knoevenagel condensation and a Staudinger reaction, 2-azidocyclopent-l-ene 1-carbaldehydes (195) can be converted into suitable products for a cyclopenta[b]pyridine synthesis [89JCS(P1)1369], as shown in Scheme 72. In order to bring the ester carbonyl function and the imino-phosphorane group into close proximity suitable for cyclization reactions, the 1,3-diene system 196 should possess the s-cis conformation. Furthermore, the exocyclic double bond should show a cis conformation. To achieve... [Pg.202]

Ring keto groups are attacked by the usual carbonyl reagents. Compounds such as tetrahydropyran-2-one (67), with the keto function adjacent to the heteroatom, behave as cyclic esters, and are ring-opened by hydroxide ion. Condensation reactions with (67) at C-3 can also be performed. [Pg.65]

Condensation of an aminoketone with urea leads to the formation of a quinazolone by incorporation of carbonyl carbon and one amino group. Thus reaction of the aminobenzophenone (84-1) with urea can be rationalized by assuming the initial formation of the urea exchange intermediate (84-2). Cyclization will then give fluproquazone (84-3) [94], a nonopioid analgesic that shows NSAID-like activity in the absence of a typical acidic function. [Pg.483]

Magnesium, 235 Samarium(II) iodide, 270 Titanium(IV) chloride, 304 Addition reactions to carbonyl groups—Addition of functionalized CARBON NUCLEOPHILES (see also Aldol reaction and other specific condensation reactions, Meth-ylenation, Peterson Olefination, Refor-matsky reaction, Wittig reaction, Wittig-Horner reaction)... [Pg.355]

As secondary amines proceed from hydrogenation of secondary imines, the behaviour of these compounds is of importance in the reaction mixture. Secondary imines can result from the condensation of primary amino group with primary imines comparables in reactivity with a carbonyl function. [Pg.331]

The Knoevenagel reaction is a base-catalyzed condensation between a dialdehyde and an arene possessing two sites with relatively acidic protons. In this polymerization, shown schematically in Scheme 34, deprotonation affords a difunctional nucleophile that subsequently attacks the carbonyl functionalities present in the other monomers. Elimination is the final step in the Knoevenagel sequence, and the use of monomers with highly acidic protons drives the reaction to completion. A number of research groups have employed this method to obtain PPV and its substituted analogs 29 [126,140-146]. [Pg.87]

Amino acids are the building blocks of proteins. A single protein consists of one or more chains of amino adds strung end to end by peptide bonds Hence the name polypeptide. You must be able recognize the structure of an amino acid and a polypeptide. A peptide bond creates the functional group known as an amide (an amine connected to a carbonyl carbon). It is formed via condensation of two amino acids. The reverse reaction is the hydrolysis of a peptide bond. [Pg.80]


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See also in sourсe #XX -- [ Pg.302 ]




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Carbonyl condensations

Carbonyl functions, condensations

Carbonyl group condensation reactions

Carbonyl group condensations

Carbonyl group reactions

Carbonyl groups/functionalities

Functional carbonyl function

Functional group carbonyl groups

Functional group carbonyls

Reaction function

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