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Deprotonated pyridines reactions

Related to the pyridine studies are the results of base-catalyzed hydrogen exchange in cyclobutabenzene derivatives, which suggest that cyclobutyl annelation increases both the kinetic and thermodynamic acidity at the a-position. The most significant study is the thermodynamic deprotonation/carboxylation reaction of cyclobutabenzene with amyl sodium/COj, in which only the a-carboxy isomer is formed (Figure 6). This is consistent with the value for the a-proton being several p units lower than that for the P-proton in cyclobutabenzene (38). [Pg.216]

The rf-N,C bonding can also occur in deprotonated pyridines,104 i.e., pyridyl complexes made by reactions such as (9-6). [Pg.350]

Azines and diazines are more difficult to deprotonate. Pyridine itself undergoes monometalation using n-butyllithium/potassium ferf-butoxide in tetrahydrofuran at — 100°C, with a regioselectivity related to the reaction conditions. Polar media favor the 4-metalated product, while in apolar solvents the 2-substituted product is formed preferentially (1). ... [Pg.169]

The term Knoevenagel reaction however is used also for analogous reactions of aldehydes and ketones with various types of CH-acidic methylene compounds. The reaction belongs to a class of carbonyl reactions, that are related to the aldol reaction. The mechanism is formulated by analogy to the latter. The initial step is the deprotonation of the CH-acidic methylene compound 2. Organic bases like amines can be used for this purpose a catalytic amount of amine usually suffices. A common procedure, that uses pyridine as base as well as solvent, together with a catalytic amount of piperidine, is called the Doebner modification of the Knoevenagel reaction. [Pg.176]

Kishimoto et al. (1974, 1981) found a general acid catalysis by protonated pyridines in coupling reactions of the 1-naphthoxide ion if weakly electrophilic diazonium ions were used. In this case it is likely that the general acid protonates the carbonyl oxygen of the o-complex, with a concerted or stepwise deprotonation at the 4-position (transition stage 12.150). [Pg.361]

Taking into account the close relationship to pyridines one would expect 2-pyridones to express similar type of reactivities, but in fact they are quite different. 2-Pyridones are much less basic than pyridines (pKa 0.8 and 5.2, respectively) and have more in common with electron-rich aromatics. They undergo halogenations (a. Scheme 10) [67] and other electrophilic reactions like Vilsmeier formylation (b. Scheme 10) [68,69] and Mannich reactions quite easily [70,71], with the 3 and 5 positions being favored. N-unsubstituted 2-pyridones are acidic and can be deprotonated (pJCa 11) and alkylated at nitrogen as well as oxygen, depending on the electrophile and the reaction conditions [24-26], and they have also been shown to react in Mitsonobu reactions (c. Scheme 10) [27]. [Pg.16]

Oxalamidinate anions represent the most simple type of bis(amidinate) ligands in which two amidinate units are directly connected via a central C-C bond. Oxalamidinate complexes of d-transition metals have recently received increasing attention for their efficient catalytic activity in olefin polymerization reactions. Almost all the oxalamidinate ligands have been synthesized by deprotonation of the corresponding oxalic amidines [pathway (a) in Scheme 190]. More recently, it was found that carbodiimides, RN = C=NR, can be reductively coupled with metallic lithium into the oxalamidinate dianions [(RN)2C-C(NR)2] [route (c)J which are clearly useful for the preparation of dinuclear oxalamidinate complexes. The lithium complex obtained this way from N,N -di(p-tolyl)carbodiimide was crystallized from pyridine/pentane and... [Pg.307]

In the dihapto mode the pyridine ring can be protonated intermolecularly at nitrogen, or even intramolecularly deprotonated at carbon. The first evidence for metal C—N insertion is the reaction of the metallaaziridine complex (111) with homogeneity LiHBEt3 in THF at low temperature that yields (112) (Scheme 49).251-254 Experiments with carbon nucleophiles (RMgCl, MeLi) in place of LiHBEt3 have provided valuable information to allow discrimination between... [Pg.107]

Deprotonation readily occurs at C-7, and the resulting anion can further react with various electrophiles. Thus, treatment with BuLi at — 78 °C followed by reaction with diiodoethane was used to prepare the 7-iodo derivatives depicted in Table 2, while the 7-chloro derivatives were prepared by lithiation with lithium diisopropylamide (LDA), followed by reaction with CCI4. The 7-formyl derivative of the parent pyrazolo[l,5- ]pyridine has been prepared in 82% yield by reaction of the BuLi-generated anion with ethyl formate <2001JME2691>. [Pg.415]

See other pages where Deprotonated pyridines reactions is mentioned: [Pg.969]    [Pg.494]    [Pg.22]    [Pg.969]    [Pg.153]    [Pg.4]    [Pg.148]    [Pg.784]    [Pg.785]    [Pg.637]    [Pg.191]    [Pg.176]    [Pg.104]    [Pg.84]    [Pg.190]    [Pg.35]    [Pg.176]    [Pg.665]    [Pg.731]    [Pg.104]    [Pg.241]    [Pg.59]    [Pg.33]    [Pg.206]    [Pg.189]    [Pg.1050]    [Pg.324]    [Pg.171]    [Pg.574]    [Pg.590]    [Pg.436]    [Pg.323]    [Pg.54]    [Pg.245]    [Pg.268]    [Pg.314]    [Pg.23]    [Pg.158]    [Pg.164]    [Pg.182]    [Pg.348]    [Pg.565]   
See also in sourсe #XX -- [ Pg.14 , Pg.21 , Pg.25 , Pg.26 , Pg.27 , Pg.28 , Pg.34 ]



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