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Weakly basic

SchifT s bases A -Arylimides, Ar-N = CR2, prepared by reaction of aromatic amines with aliphatic or aromatic aldehydes and ketones. They are crystalline, weakly basic compounds which give hydrochlorides in non-aqueous solvents. With dilute aqueous acids the parent amine and carbonyl compounds are regenerated. Reduction with sodium and alcohol gives... [Pg.353]

This method cannot be applied to polynitro amines, since these are so weakly basic that they can be diazotised only under special conditions in strongly acidic solutions. In such cases use may, however, be made of the mobility oonfared upon halogen atoms by the presence of nitro groups in the orlko and para positions. Thus the valuable reagent 2 4-dinitrophenylhydrazine is readily prepared by the condensation of 2 4-dinitrochlorobenzene with hydrazine ... [Pg.635]

The high acidity of superacids makes them extremely effective pro-tonating agents and catalysts. They also can activate a wide variety of extremely weakly basic compounds (nucleophiles) that previously could not be considered reactive in any practical way. Superacids such as fluoroantimonic or magic acid are capable of protonating not only TT-donor systems (aromatics, olefins, and acetylenes) but also what are called (T-donors, such as saturated hydrocarbons, including methane (CH4), the simplest parent saturated hydrocarbon. [Pg.100]

Because of these difficulties, special mechanisms were proposed for the 4-nitrations of 2,6-lutidine i-oxide and quinoline i-oxide, and for the nitration of the weakly basic anilines.However, recent remeasurements of the temperature coefficient of Hq, and use of the new values in the above calculations reconciles experimental and calculated activation parameters and so removes difficulties in the way of accepting the mechanisms of nitration as involving the very small equilibrium concentrations of the free bases. Despite this resolution of the difficulty some problems about these reactions do remain, especially when the very short life times of the molecules of unprotonated amines in nitration solutions are considered... [Pg.159]

Torgov introduced an important variation of the Michael addition allylic alcohols are used as vinylogous a -synthons and 1,3-dioxo compounds as d -reagents (S.N. Ananchenko, 1962, 1963 H. Smith, 1964 C. Rufer) 1967). Mild reaction conditions have been successful in the addition of ],3-dioxo compounds to vinyl ketones. Potassium fluoride can act as weakly basic, non-nudeophilic catalyst in such Michael additions under essentially non-acidic and non-basic conditions (Y. Kitabara, 1964). [Pg.71]

Glycosidic thiol groups can be introduced into glycosyl bromides by successive reactions with thiourea and aqueous sodium disulfite (D. Horton, 1963 M. Cemy, 1961, 1963). Such thiols are excellent nucleophiles in weakly basic media and add to electrophilic double bonds, e.g., of maleic esters, to give Michael adducts in high yields. Several chiral amphiphiles have thus been prepared without any need for chromatography (J.-H. Fuhrhop, 1986 A). [Pg.269]

The weakly basic 2-aminothiazoles are most readily diazotized in concentrated solutions of oxygen containing acids such as sulfuric acid, 40 to 50% (322-326) fiuoroboric phosphoric acids (589) phosphoric acid (327, 328) and mixtures of phosphoric and nitric acid (74. 322, 323. 329-331). From strong acid solutions, solid diazonium salts can be isolated (34, 332. 333). [Pg.66]

Alkyl and aryl selenazoles are weakly basic, and their quaternary salts are easily hydrolvzed in aqueous solution. [Pg.221]

This bathochromic shift is typical of 77 —> tt transitions. The behavior of the water solution when acidified was attributed by Albert (175) absorption by the thiazolium cation, by analogy with pyridine. However, allowance is made for the very weak basicity of thiazole (pK = 2.52) compared with that of pyridine (pK = 5.2), Ellis and Griffiths (176) consider the differences between the spectrum of thiazole in water and in... [Pg.47]

A second factor that can tip the balance m favor of substitution is weak basicity of the nucleophile Nucleophiles that are less basic than hydroxide react with both pri mary and secondary alkyl halides to give the product of nucleophilic substitution m high yield To illustrate cyanide ion is much less basic than hydroxide and reacts with 2 chlorooctane to give the corresponding alkyl cyanide as the major product... [Pg.349]

Benzylic halides that are secondary resemble secondary alkyl halides in that they undergo substitution only when the nucleophile is weakly basic If the nucleophile is a strong base such as sodium ethoxide elimination by the E2 mechanism is faster than substitution... [Pg.445]

The structural features especially the very polar nature of the carbonyl group point clearly to the kind of chemistry we will see for aldehydes and ketones in this chapter The partially positive carbon of C=0 has carbocation character and is electrophilic The planar arrangement of its bonds make this carbon relatively uncrowded and susceptible to attack by nucleophiles Oxygen is partially negative and weakly basic... [Pg.708]

Conjugate addition is most often observed when the nucleophile (Y ) is weakly basic The nucleophiles m the two examples that follow are C=N and C6H5CH2S respectively Both are much weaker bases than acetylide ion which was the nucleophile used m the example illustrating direct addition... [Pg.777]

P carbon atom of an a 3 unsatu rated carbonyl compound is elec trophilic nucleophiles especially weakly basic ones yield the prod ucts of conjugate addition to a 3 unsaturated aldehydes and ketones... [Pg.783]

Anion exchange resins- —gel type—weakly basic—polyamine functionality ... [Pg.1111]

Dowex 4-X4 1.6 0.70 Weakly basic anion exchanger with tertiary amines on an acrylic matrix for the deionization of carbohydrates. Use at pH <7. [Pg.1111]

Pentafluoroaniline. Pentafluoroaniline [771 -60-8] i2is been prepared from amination of hexafluoroben2ene with sodium amide inbquid ammonia or with ammonium hydroxide in ethanol (or water) at 167—180°C for 12—18 h. It is weakly basic (p = 0.28) and dissolves only in concentrated acids. Liquid crystals have been prepared from Schiff bases derived from pentafluoroaniline (230). [Pg.327]

Because lactic acid has both hydroxyl and carboxyl functional groups, it undergoes iatramolecular or self-esterificatioa and forms linear polyesters, lactoyUactic acid (4) and higher poly(lactic acid)s, or the cycUc dimer 3,6-dimethyl-/)-dioxane-2,5-dione [95-96-5] (dilactide) (5). Whereas the linear polyesters, lactoyUactic acid and poly(lactic acid)s, are produced under typical condensation conditions such as by removal of water ia the preseace of acidic catalysts, the formation of dilactide with high yield and selectivity requires the use of special catalysts which are primarily weakly basic. The use of tin and ziac oxides and organostaimates and -titanates has been reported (6,21,22). [Pg.512]

Soluble analogues of these difunctional initiators have been prepared either by addition of small amounts of weakly basic additives such as triethylamine (73) or anisole (74) which have relatively minor effects on diene microstmcture (37). Another method to solubilize these initiators is to use a seeding technique, whereby small amounts of diene monomer are added to form a hydrocarbon-soluble, oligomeric dilithium-initiating species (69,75). [Pg.239]

For weakly basic amines, ie, those containing several electron-withdrawing groups, nitrosyl sulfuric acid (NO HSO is used as the nitrosating species in sulfuric acid, which may be diluted with phosphoric, acetic, or propionic acid. [Pg.273]

Ethers are weakly basic and are converted to unstable oxonium salts by strong acids such as sulfudc acid, perchlodc acid, and hydrobromic acid relatively stable complexes ate formed between ethers and Lewis acids such as boron trifluodde, aluminum chlodde, and Gtignatd reagents (qv) (9) ... [Pg.425]

Acylation of pyridazinones and related compounds in the presence of weakly basic catalysts such as pyridine or sodium acetate produces IV-acylated products, while O-acylated products are obtained under strongly basic conditions. However, the reaction between 6-chloropyridazin-3(2//)-one with chlorocarbonates and that of maleic hydrazide with unsaturated acid chlorides or chloromethylsulfonyl chloride gives preferentially N-substituted products. [Pg.16]

NMR data for 4-methyloxazole have been compared with those of 4-methylthiazole the data clearly show that the ring protons in each are shielded. In a comprehensive study of a range of oxazoles. Brown and Ghosh also reported NMR data but based a discussion of resonance stabilization on pK and UV spectral data (69JCS(B)270). The weak basicity of oxazole (pX a 0.8) relative to 1-methylimidazole (pK 7.44) and thiazole (pK 2.44) demonstrates that delocalization of the oxygen lone pair, which would have a base-strengthening effect on the nitrogen atom, is not extensive. It must be concluded that not only the experimental measurement but also the very definition of aromaticity in the azole series is as yet poorly quantified. Nevertheless, its importance in the interpretation of reactivity is enormous. [Pg.33]

Despite the weak basicity of isoxazoles, complexes of the parent methyl and phenyl derivatives with numerous metal ions such as copper, zinc, cobalt, etc. have been described (79AHC(25) 147). Many transition metal cations form complexes with Imidazoles the coordination number is four to six (70AHC(12)103). The chemistry of pyrazole complexes has been especially well studied and coordination compounds are known with thlazoles and 1,2,4-triazoles. Tetrazole anions also form good ligands for heavy metals (77AHC(21)323). [Pg.51]

The acid-base properties of isoxazole and methylisoxazoles were studied in proton donor solvents, basic solvents or DMSO by IR procedures and the weakly basic properties examined (78CR(Q(268)613). The basicity and conjugation properties of arylisoxazoles were also studied by UV and basicity measurements, and it was found that 3-substituted isoxazoles were always less basic than the 5-derivatives. Protonation increased the conjugation in these systems (78KGS327). [Pg.10]

The pKa values of a number of isoxazoles have been reported and again the weakly basic nature of the ring, being less than oxazole, is demonstrated (see Table 3) (7iPMH(3)i. p. 23). [Pg.10]


See other pages where Weakly basic is mentioned: [Pg.27]    [Pg.143]    [Pg.163]    [Pg.179]    [Pg.320]    [Pg.114]    [Pg.115]    [Pg.131]    [Pg.377]    [Pg.797]    [Pg.71]    [Pg.330]    [Pg.352]    [Pg.445]    [Pg.778]    [Pg.176]    [Pg.294]    [Pg.397]    [Pg.322]    [Pg.438]    [Pg.66]    [Pg.128]    [Pg.25]    [Pg.273]    [Pg.277]   
See also in sourсe #XX -- [ Pg.81 ]




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Acidity weakly basic probes

Amides weak basic properties

Amphoterics with weakly basic nitrogen

Anionics with weakly basic cationics or amphoterics

Carbon weakly basic probe molecule

Cations weakly basic anions

Fluoro anions, very weakly basic

Introduction Measuring the Weak Diiodine Basicity of Haloalkanes

Ionisation weakly acidic/basic drugs

Nucleophiles weakly basic

Quaternary ammonium salts with weakly basic cationics

Reactions of very weakly basic acids and esters

Some Typical Properties of a Weakly Basic Polyelectrolyte with Non Hydrophylic Chains

Sulphobetaines weakly basic

Surfactants weakly basic

Very weakly basic fluoro anions, stabilization

Weak basic catalysts

Weakly acidic and basic drugs

Weakly basic anion

Weakly basic cationics with amphoterics

Weakly basic reaction

Weakly basic reaction condition

Weakly basic solvents, relative strengths

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