1 - pyridinium salt pyridine

Crown ethers, pyridinium salts, pyridines, cyclic amines, and alkaloids as polymer-sypported organic catalysts 03CRV3401. 

In the case of a pyridinium salt, an indirect proof of the correctness of this mechanism can be found in the presence of a heptamethine thiazolo-cyanine, together with monomethine. which results unambiguously from 19 by the known opening of the pyridine ring (Scheme 25) (52). 

Reactive halogen compounds, alkyl haUdes, and activated alkenes give quaternary pyridinium salts, such as (12). Oxidation with peracids gives pyridine Akoxides, such as pyridine AJ-oxide itself [694-59-7] (13), which are useful for further synthetic transformations (11). 

The Zincke reaction is an overall amine exchange process that converts N- 2,A-dinitrophenyl)pyridinium salts (e.g, 1), known as Zincke salts, to iV-aryl or iV-alkyl pyridiniums 2 upon treatment with the appropriate aniline or alkyl amine. The Zincke salts are produced by reaction of pyridine or its derivatives with 2,4-dinitrochlorobenzene. This venerable reaction, first reported in 1904 and independently explored by Konig, proceeds via nucleophilic addition, ring opening, amine exchange, and electrocyclic reclosure, a sequence that also requires a series of proton transfers. By... 

In 1904, Zincke reported that treatment of Al-(2,4-dinitrophenyl)pyridinium chloride (1) with aniline provided a deep red salt that subsequently transformed into A-phenyl pyridinium chloride 5 (Scheme 8.4.2). Because the starting salt 1 was readily available from the nucleophilic aromatic substitution reaction of pyridine with 2,4-dinitrochlorobenzene, the Zincke reaction provided access to a pyridinium salt (5) that would otherwise require the unlikely substitution reaction between pyridine and... 

A special type of ammonio group is represented by 4-( 1 -pyridinium)-pyridine and other azinium analogs. Such products often result from self-quaternization of highly reactive derivatives. A -(4-Pyridyl)-and A -(3-nitro-4-pyridyl)-pyridinium chloride hydrochlorides (121) react with aniline, chloride ion, and water to give 4-substituted pyridines plus pyridine. l-(2-Quinolyl)- and l-(4-quinolyl)-pyridinium salts undergo 2- and 4-substitution, respectively, with amines, anilines, hydroxylamine, phenols, alkoxides, mercaptans, and chloride... 

Acylation of 7-ACA with 2-thienylacetylchloride gives the amide cephalothin (43). Displacement of the allylic acetyl group by pyridine affords the corresponding pyridinium salt cephalori-dine (44). Both these compounds constitute useful injectable antibiotics with some activity against bacteria resistant to penicillin by reason of penicillinase production. 

Surprisingly, acetylation in hot pyridine yields the pyridinium salt 10. The amino group has amidine character and is resistant to diazotization, and condenses only with reactive aldehydes such as formaldehyde and trichloroacetaldehyde.41... 

Pyridin-4-imines, from 5-hydroxy-THISs. 10 Pyridinium salts, in synthesis of heptame-thine thiazolocyanines, 57 in heptamethine thiazolocyanine synthesis. 41... 

Monocyclic 2H-[ 1,2,3 Idiazaphospholes (B) are easily accessible from the condensation of the four-membered chain incorporated in hydrazones or azoalkanes with phosphorus trichloride making available a large number of representatives that have been intensively studied [2, 4, 7], In contrast, their 1//-isomers (A) are less known and are obtained only as second minor product during the synthesis of 2//-[l,2,3]diazaphospholes in some cases. A facile synthesis for pyrido-anellated azaphospholes has been developed in our group by making use of 1,2-disubstituted pyridinium salts for condensation with phosphorus trichloride [8, 13-15], Accordingly, cyclocondensation of 2-alkyl-1-aminopyridinium iodides (1) with phosphorus trichloride in the presence of triethylamine affords pyrido-anellated l//-[l,2,3]diazaphospholes, i.e. l,2,3]diazaphospholo 1,5-a] pyridines (2) (Scheme 1) [16],... 

A variety of polar reagents add to P=C or P=N bond when more electronegative part is bonded to phosphorus. Addition of two water molecules on P=C bond in [l,4,2]diazaphospholo[4,5-a]pyridine (76) and P=N bond in [l,2,3]diazaphos-pholo[ 1,5-aIpyridinc (2) causes ring opening (Scheme 23) [16, 68], In the case of 76 (R=C02Et), further hydrolysis to pyridinium salt 78 was observed [73],... 

Activation of a primary alcohol 174 by in situ mesylation and nucleophilic attack of a pyridine nitrogen atom was used in the last steps of a synthesis of cyclohexa[tf]quinolizidines 176. These compounds were obtained by direct NaBH4 reduction of intermediate pyridinium salts 175, and were proposed as tricyclic models containing the ABC-part of 8-azasteroids (Scheme 30) <1999T9269>. 

Typically, pyridinium salts are prepared through reaction of an intact pyridine with electrophiles. Marazano el al. used a three-component process as entry into 3-substituted pyridinium salts for the preparation of 49 as shown below <06TL5503>. 

The utilization of solid-support pyridinium salts in the synthesis of bicyclic pyridines has been reported. Yue et al. synthesized 1,2,3,7-tetrasubstituted indolizines using poly(ethyleneglycol)bound pyridinium salts <06JHC781>. The PEG-bound pyridinium salts 53 were reacted with alkenes or alkynes in the presence of Et3N, via 1,3-dipolar cycloaddition, to give polymer-bound indolizines 54 and 55, respectively. Liberation of the heterocycle with KCN/MeOH afforded 1,2,3,7-tetrasubstituted indolizines 56 and 57 in good to excellent yield. 

Another classic reaction of pyridinium salts is reduction of the pyridine ring. Donohoe and co-workers reported the partial reduction of A-alkylpyridinium salts <060BC1071>, which is accompanied by subsequent alkylation and hydrolysis to furnish a range of 2,3-dihydropyrid-4-ones. This sequence has the potential to introduce a variety of functional groups at the C-2 position of 2,3-dihydropyrid-4-ones. Reduction of pyridinium ylides with sodium borohydride has also been reported in fair to good yields <06JHC709>. 

Both pyridinium salts and pyridine A-oxides are of increased interest as chiral catalysts in organic reactions. Connon and Yamada independently designed and examined pyridinium salts as chiral catalysts in the acylation of secondary alcohols <06OBC2785 06JOC6872>. These two catalysts can be used for kinetic resolution of various sec-alcohols and uf/-diols in good to moderate enantiomeric excess. 

Most of the synthetic approaches toward this ring system utilize N-amino pyridinium salts functionalized at the a-position with a carbonyl group. Thus, the amination of 2-(l,3-dioxolan-2-yl)pyridine with tosyl-hydroxylamine gave 78, whose reaction with urea in the presence of boron trifluoride-acetic acid gave 79, which gave the thermally unstable... 

---