5-Substituted pyrazol-3-ones, reaction with

Alkynyl ketones can be formed from addition of alkynyllithium or Grignard reagents to phthalimides and then the products converted into pyrazoles by reaction with hydrazines. For example, A -alkyl-substituted phthalimides 633 were easily transformed to mono-, di-, or trisubstituted pyrazoles 634 via a one-pot addition/decyclization/cyclocon-densation process (Equation 131) <2002J(P1)207>. A -Alkyl-substituted phthalimides 635 were easily converted into di-, tri-, and tetrasubstituted pyrazoles 636 via a one-pot addition-decyclization-cyclocondensation process (Equation 132) <2003H(60)2499>. 

Different approaches towards pyrazoles have been described using microwave-accelerated cyclizations. A classical approach to pyrazoles is the cyclization of a j6-diketone with hydrazines. A series of 5-trichloromethyl-pyrazoles 58 and pyrazolium chlorides 59 were synthesized by reaction of a 4-methoxy-trihalo-3-alken-one 57 with differently substituted hydrazines (Scheme 19). The use of microwave and conventional heating for making pyrazoles gave... 

Hydrazones are also useful substrates in the preparation of pyrazoles. Reaction of N-monosubstituted hydrazones with nitroolefins led to a regioselective synthesis of substituted pyrazoles <060L3505>. lf/-3-Ferrocenyl-l-phenylpyrazole-4-carboxaldehyde was achieved by condensation of acetylferrocene with phenylhydrazine followed by intramolecular cyclization of the hydrazone obtained under Vilsmeier-Haack conditions <06SL2581>. A one-pot synthesis of oxime derivatives of l-phenyl-3-arylpyrazole-4-carboxaldehydes has been accomplished by the Vilsmeier-Haack reaction of acetophenone phenylhydrazones <06SC3479>. 

Synthetic routes to these derivatives - as also discussed earlier in CHEC-II(1996) <1996CHEG-II(8)445> - utilize the reaction of a 3-substituted pyrazole derivative bearing a carbonylhydrazine or hydrazone side chain with an appropriate reagent providing a one-carbon-atom stmctural unit. Scheme 60 summarizes the recent results. 

Abstract Synthesis methods of various C- and /V-nitroderivativcs of five-membered azoles - pyrazoles, imidazoles, 1,2,3-triazoles, 1,2,4-triazoles, oxazoles, oxadiazoles, isoxazoles, thiazoles, thiadiazoles, isothiazoles, selenazoles and tetrazoles - are summarized and critically discussed. The special attention focuses on the nitration reaction of azoles with nitric acid or sulfuric-nitric acid mixture, one of the main synthetic routes to nitroazoles. The nitration reactions with such nitrating agents as acetylnitrate, nitric acid/trifluoroacetic anhydride, nitrogen dioxide, nitrogen tetrox-ide, nitronium tetrafluoroborate, V-nitropicolinium tetrafluoroborate are reported. General information on the theory of electrophilic nitration of aromatic compounds is included in the chapter covering synthetic methods. The kinetics and mechanisms of nitration of five-membered azoles are considered. The nitroazole preparation from different cyclic systems or from aminoazoles or based on heterocyclization is the subject of wide speculation. The particular section is devoted to the chemistry of extraordinary class of nitroazoles - polynitroazoles. Vicarious nucleophilic substitution (VNS) reaction in nitroazoles is reviewed in detail. 

Several d and / transition metals have been found to yield polymeric complexes with pyrazoles 14, 178). Reactions of these polymers with HFA produce monomeric species, HFA adding to the free nitrogen atom and the metal. Substitution of one carbon atom adjacent to nitrogen also results in degradation of the polymers. However, no reaction has been found when both a carbon atoms are sterically hindered 14). 

Reactions of trichloromethyl-substituted 1,3-dielectrophiles 551 with hydrazine afforded hydroxy pyrazoles 552 (Equation 111) <2002TL5005>. Cyclocondensation of alkenones 553 with phenylhydrazine under microwave irradiation furnished 5-trichloromethyl-substituted pyrazoles 554 in excellent yields (Equation 112) <2003TL6669>. 4-Alkoxy-l,l,l-trichloro-3-alken-2-ones were useful precursors for the regiospecific synthesis of 5-trichloromethylpyr-azoles using hydrazines <2002SC419, 2002SC1585>. l,l,l-Trifluoro-4-ethoxy-3-buten-2-one, 3-trifluoroacetyl-3-buten-... 

A new efficient procedure has been proposed for the synthesis of 3-aryl-5-amino-l//-pyrazoles by reaction of a-chloro-/ -arylacrylonitriles with hydrazine hydrate <2004RJ01518>. Reaction of 2-(3,3-dicyano-2-propenylidene)-4,4,5,5-tetra-methyl-l,3-dioxolane 641 with hydrazine afforded 3-(2-hydroxy-l,l,2-trimethylpropoxy)pyrazole 642 (Equation 134) <2003RJ01016>. Treatment of ethyl 3,3-dicyano-2-methoxyacrylate with alkyl, aryl, heterocyclic, and sulfonyl hydrazines led to the synthesis of N-l-substituted 3-acyM-cyano-5-aminopyrazoles, which are versatile intermediates for the synthesis of many biologically active scaffolds <2006TL5797>. 2-Hydrazinothiazol-4(5//)-one reacted with a variety of cinnamonitrile derivatives and activated acrylonitriles to yield annelated pyrazolopyrano[2,3-rf thiazole <1998JCM730>. 

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