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Heterocyclic compounds saturated heterocycles

Aromatic Compounds Very considerable variety—see catalogues. Heterocyclic Compounds Saturated and unsaturated in great variety. Monomers for Polymers Butadiene, isoprene, styrene... [Pg.80]

These contracted names of heterocyclic nitrogen compounds are retained as alternatives for systematic names, sometimes with indicated hydrogen. In addition, names of 0x0 derivatives of fully saturated nitrogen heterocycles that systematically end in -idinone are often contracted to end in -idone when no ambiguity might result. For example. [Pg.34]

The mass spectral fragmentation of the fully saturated parent heterocycles has been studied on a comparative basis (65JA2920) and the principal processes are indicated in Figure 10. All of the compounds exhibit appreciable molecular ions. The M-1 ions (v)... [Pg.23]

Calculation of group increments for oxygen, sulfur and nitrogen compounds has allowed the estimation of conventional ring-strain energies (CRSE) for saturated heterocycles from enthalpies of formation. For 1,3-dioxolane, CRSE is about 20 kJ mol . In 2,4-dialkyl-l,3-dioxolanes the cis form is always thermodynamically the more stable by approximately 1 kJ mol" . [Pg.32]

Saturated five-membered heterocyclic compounds are non-planar, existing in half-chair or envelope conformations. The far-IR spectra of THE and 1,3-dioxolane (127) show both to have barriers of ca. 0.42 kJ moP ... [Pg.34]

Compounds of type (6), (7), (8) and (9), although not strictly derivatives of a saturated heterocyclic system, will be discussed in this chapter. Our discussion of (7) begins and ends here, since oxiranethiones or a-thiolactones are apparently unknown (80AG(E)276). Little is known of (8) and its derivatives, oxiranimines or a-iminolactams. They have been postulated as intermediates in the thermal decomposition of aziridinones (a-lactams) (Scheme 1) but there is no well-established case of the isolation of an oxiranimine (80AG(E)276). [Pg.96]

Carbocyclic compounds are very usefully divided into (a) saturated (alicyclic) compounds, (b) aromatic compounds and (c) the intermediate partially unsaturated (alicyclic) compounds. Heterocyclic compounds can be subdivided in exactly the same way, and equally usefully. [Pg.2]

Synthesis of the title compound is representative of a number of syntheses of nonaromatic nitrogen heterocycles via Pd(Ill-catalyzed amination of olefins. These tosylated enamines are not readily available by standard synthetic methods, and show potential for further functionalization of the heterocycle. The saturated amine can be synthesized from the title compound by hydrogenation of the double bond followed by photolytic deprotection. ... [Pg.55]

In a saturated heterocyclic compound the situation is very different from that in an aromatic compound. The volume requirement of a... [Pg.13]

CaveU and Chapman made the interesting observation that a difference exists between the orbital involved in the quatemization of aromatic nitrogen heterocycles and aromatic amines, which appears not to have been considered by later workers. The lone pair which exists in an sp orbital of the aniline nitrogen must conjugate, as shown by so many properties, with the aromatic ring and on protonation or quatemization sp hybridization occurs with a presumed loss of mesomerism, whereas in pyridine the nitrogen atom remains sp hybridized in the base whether it is protonated or quaternized. Similarly, in a saturated compound, the nitrogen atom is sp hybridized in the base and salt forms. [Pg.55]

As discussed in Chapter 6, nitro compounds are converted into amines, oximes, or carbonyl compounds. They serve as usefid starting materials for the preparation of various heterocyclic compounds. Especially, five-membered nitrogen heterocycles, such as pyrroles, indoles, ind pyrrolidines, are frequently prepared from nitro compounds. Syntheses of heterocyclic compounds using nitro compounds are described partially in Chapters 4, 6 and 9. This chapter focuses on synthesis of hetero-aromadcs fmainly pyrroles ind indolesi ind saturated nitrogen heterocycles such as pyrrolidines ind their derivadves. [Pg.325]

The German ending -an should be translated -ane if it is the name of a hydrocarbon (or parent heterocyclic compound) which is fully saturated otherwise, -an. Examples methane, menthane, tolan, furan, pentosan. [Pg.552]

Two types of heterocyclic compounds are discussed in this chapter those that undergo saturation and those that undergo fission of the heterocyclic ring. Both types of reduction have wide synthetic application. [Pg.133]

Heterocyclic amines are compounds that contain one or more nitrogen atoms as part of a ring. Saturated heterocyclic amines usually have the same chemistry as their open-chain analogs, but unsaturated heterocycles such as pyrrole, imidazole, pyridine, and pyrimidine are aromatic. All four are unusually stable, and all undergo aromatic substitution on reaction with electrophiles. Pyrrole is nonbasic because its nitrogen lone-pair electrons are part of the aromatic it system. Fused-ring heterocycles such as quinoline, isoquinoline, indole, and purine are also commonly found in biological molecules. [Pg.958]

Data are given in Table IV for heterocyclic compounds. For piperidine there is no difference between E and E, showing that the bond energies used are applicable to saturated heterocyclic molecules. Pyridine and quinoline differ from benzene and naphthalene only by the presence of one N in place of CH and, as expected, the values 1.87 v.e. and 3.01 v.e., respectively, of the resonance energy are equal to within 10 percent to the values for the corresponding hydrocarbons. [Pg.135]

Considering the formation of saturated five-membered heterocycles with two heteroatoms, it is worth to note the possibility to prepare 1,3-dioxolanes, dithiane, oxathianes 148 [93] and dioxolanones 149 [94] by condensation of the corresponding carbonyl compounds under microwave irradiation in acid medium (Scheme 52). The reaction, which is very useful for the protection of carbonyl compounds or for the preparation of useful synthetic intermediates, has also been carried out under batch conditions over Montmorillonite KIO clay in more than 150 g scale, using a 1 L quartz reactor [95]. [Pg.240]

In Table IV some physical data and spectral characteristics of 6,7-secoberbines are listed. Only methyl corydalate (55) is optically active. Formula 55 presents the spatial structure of this compound, deduced by Nonaka et al. (65) and confirmed by Cushman et al. by both correlation with (+)-mesotetrahydrocorysamine (72) (<5S) and total synthesis (69). It is difficult to find common characteristic features in both the mass and H-NMR spectra of these alkaloids because they differ significantly from each other in their structures. On one hand, corydalic acid methyl ester (55) incorporates a saturated nitrogen heterocycle, while the three aromatic bases (56-58) differ in the character of the side chain nitrogen. For example, in mass fragmentation, ions of the following structures may be ascribed to the most intensive bands in the spectrum of 55 ... [Pg.253]

Trifluoromethyl groups that are bound to sp2 carbons of alkenes, arenes, or heterocyclic compounds are slightly deshielded compared to the saturated counterparts, but the influence is relatively small (Scheme 5.32). [Pg.169]

The analytical data obtained, particularly by the PUMA mass spectrometer on board Vega 1 during the flyby, indicate the presence of a large number of linear and cyclic carbon compounds, such as olefins, alkynes, imines, nitriles, aldehydes and carboxylic acids, but also heterocyclic compounds (pyridines, pyrroles, purines and pyrimidines) and some benzene derivatives no amino acids, alcohols or saturated hydrocarbons are, however, present (Kissel and Krueger, 1987 Krueger and Kissel, 1987). [Pg.62]

Chemical libraries of /3-turn mimetics, among them highly saturated pyrazino[l,2-tf]pyrazines, were synthesized and patented as biologically useful compounds <2001W02001/000210>. Solid-phase syntheses starting from substituted a,/3-unsaturated ester templates provided differently substituted saturated heterocyclic systems, among them saturated 2,4,8-trisubstituted-pyrazino[l,2- ]pyrazine-l,6-diones <2003W02003/013740>. [Pg.291]

Further development in the chemistry of oxazolidinone antibacterials was based mainly on the assumption that the 4-pyridyl moiety of one of Dupont s lead compounds, E-3709, might be amenable to replacement by suitably saturated heterocyclic bioisosteres [48]. This assumption was based on an example in which successful replacement of the piperazine ring system in the quinolone antibacterials, such as ciprofloxacin, with a pyridine fragment, such as seen in Win-57273, results in improvement of both the antibacterial and the pharmacokinetic profiles of the compounds. Similarly, as in the case of ciprofloxacin and Win-57273, it was predicted that the presence of a small but highly electron-withdrawing fluorine atom would be tolerated at the meta position(s) of the central phenyl ring, and would confer enhanced antibacterial activity and/or other desirable properties to the targeted oxazolidinones, as shown in Fig. 3. [Pg.188]


See other pages where Heterocyclic compounds saturated heterocycles is mentioned: [Pg.17]    [Pg.850]    [Pg.12]    [Pg.96]    [Pg.2]    [Pg.3]    [Pg.4]    [Pg.6]    [Pg.27]    [Pg.22]    [Pg.323]    [Pg.16]    [Pg.152]    [Pg.207]    [Pg.383]    [Pg.377]    [Pg.150]    [Pg.186]    [Pg.369]    [Pg.369]    [Pg.79]    [Pg.111]    [Pg.377]    [Pg.129]    [Pg.1119]   
See also in sourсe #XX -- [ Pg.311 ]

See also in sourсe #XX -- [ Pg.333 ]




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Heterocyclic compounds saturated

Heterocyclic compounds saturated

Saturated compounds

Saturated heterocycles

Saturated heterocyclic

Saturation compound

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