Anionic Friedel-Crafts

V. Remote aromatic metalation. An anionic Friedel-Crafts equivalent for the regioselective synthesis of condensed fluorenones from biaryl and m-teraryl 2-amides. /. Org. Chem. 1991, 56,1683-1685. 

Scheme 36. Biaryl amide DreM. Versatile anionic Friedel-Crafts complements for assemblage of fluorenones and azafluorenones.

Heteroatom-Bridged Biaryl DreM. General Anionic Friedel-Crafts Complements for Several Classes of Heterocycles... 

V. Snieckus and co-workers developed a new carbamoyl Baker-Venkataraman rearrangement, which allowed a general synthesis of substituted 4-hydroxycoumarins in moderate to good overall yields. The intermediate arylketones were efficiently prepared from arylcarbamates via directed ortho metallation and Negishi cross coupling. The overall sequence provided a regiospecific anionic Friedel-Crafts complement for the construction of ortho-acyl phenols and coumarins. 

Biaryl Amide DreM. Versatile Anionic Friedel - Crafts Complements for Assemblege of Fluorenones and Azafluorenones... 

Several methods for the preparation of ehain-fluorinated pyridazines relied on the so-called anionic Friedel - Crafts reactions (i.e. aromatic nucleophilic substitution with perfluoroalkyl anions or their synthetic equivalents) with tetra-fluoropyridazine, which was discussed in the corresponding section on chemistry of ring-fluorinated diazines. 

Weak Base Anion Exchangers. Both styreoic and acryHc copolymers can be converted to weak base anion-exchange resias, but differeat syathetic routes are aecessary. Styreae—DVB copolymers are chloromethylated and aminated ia a two-step process. Chloromethyl groups are attached to the aromatic rings (5) by reactioa of chloromethyl methyl ether [107-30-2] CH2OCH2CI, with the copolymer ia the preseace of a Friedel-Crafts catalyst such as aluminum chloride [7446-70-0], AlCl, iroa(III) chloride [7705-08-0], FeCl, or ziac chloride [7646-85-7], ZaCl. ... 

The general discussion (Section 4.02.1.4.1) on reactivity and orientation in azoles should be consulted as some of the conclusions reported therein are germane to this discussion. Pyrazole is less reactive towards electrophiles than pyrrole. As a neutral molecule it reacts as readily as benzene and, as an anion, as readily as phenol (diazo coupling, nitrosation, etc.). Pyrazole cations, formed in strong acidic media, show a pronounced deactivation (nitration, sulfonation, Friedel-Crafts reactions, etc.). For the same reasons quaternary pyrazolium salts normally do not react with electrophiles. 

The fluoride [NS(0)F]3 is more stable thermally and towards nucleophilic reagents than the corresponding chloride. For example, 8.15a is hydrolyzed by water to NH(S02NH2)2, whereas sulfanuric fluoride is unaffected by cold water. In warm water, however, hydrolysis occurs to give the [N3S304F2] anion. All three fluorine atoms in [NS(0)F]3 can be replaced by primary or secondary amines at 80-90°C in the absence of a solvent. Mono- or diphenyl derivatives can be prepared by treatment of [NS(0)F]3 with PhLi in diethyl ether at -70°C, while the Friedel-Crafts reaction with benzene at reflux in the presence of AICI3 gives two isomers of [NS(0)Ph]3. ... 

Acidic chloroaluminate ionic liquids have already been described as both solvents and catalysts for reactions conventionally catalyzed by AICI3, such as catalytic Friedel-Crafts alkylation [35] or stoichiometric Friedel-Crafts acylation [36], in Section 5.1. In a very similar manner, Lewis-acidic transition metal complexes can form complex anions by reaction with organic halide salts. Seddon and co-workers, for example, patented a Friedel-Crafts acylation process based on an acidic chloro-ferrate ionic liquid catalyst [37]. 

Polylactides, 18 Poly lactones, 18, 43 Poly(L-lactic acid) (PLLA), 22, 41, 42 preparation of, 99-100 Polymer age, 1 Polymer architecture, 6-9 Polymer chains, nonmesogenic units in, 52 Polymer Chemistry (Stevens), 5 Polymeric chiral catalysts, 473-474 Polymeric materials, history of, 1-2 Polymeric MDI (PMDI), 201, 210, 238 Polymerizations. See also Copolymerization Depolymerization Polyesterification Polymers Prepolymerization Repolymerization Ring-opening polymerization Solid-state polymerization Solution polymerization Solvent-free polymerization Step-grown polymerization processes Vapor-phase deposition polymerization acid chloride, 155-157 ADMET, 4, 10, 431-461 anionic, 149, 174, 177-178 batch, 167 bulk, 166, 331 chain-growth, 4 continuous, 167, 548 coupling, 467 Friedel-Crafts, 332-334 Hoechst, 548 hydrolytic, 150-153 influence of water content on, 151-152, 154... 

Friedel-Crafts disconnection (38a) Is unambiguous because of the synunetry of (39). Further disconnection requires FGA. A carbonyl group next to the aromatic ring gives a 1,4-dicarbonyl compound (40) and allows disconnection of an acyl anion equivalent to give an enone (41). This can be made by Mannich reaction from (42). 

Its aromaticity cannot, of course, be tested by attempted electrophilic substitution, for attack by X would merely lead to direct combination with the anion. True aromatic character (e.g. a Friedel-Crafts reaction) is, however, demonstrable in the remarkable series of extremely stable, neutral compounds obtainable from (15), and called metallocenes, e.g. ferrocene (16), in which the metal is held by n bonds in a kind of molecular sandwich between the two cyclopentadienyl structures ... 

A fourfold anionic domino process consistingofadominoMichael/aldol/Michael/ aldol process was used by Koo and coworkers for the synthesis of bicyclo[3.3.1]non-anes. They employed 2 equiv. of inexpensive ethyl acetoacetate and 1 equiv. of a simple a, 3-unsaturated aldehyde [290]. Differently substituted dihydroquinolines were assembled in a Michael/aldol/elimination/Friedel-Crafts-type alkylation protocol by the Wessel group [291]. An impressive approach in this field, namely the construction of the indole moiety 2-557, which represents the middle core of the man-zamines, has been published by Marko and coworkers [292]. Manzamine A (2-555) and B (2-556) are members of this unique family of indole alkaloids which were isolated from sponges of the genus Haliclona and Pelina (Scheme 2.126) [293]. 

A fourfold anionic sequence which is not initiated by a Michael but an aldol reaction has been reported by the group of Suginome and Ito (Scheme 2.129) [295]. In this approach, the borylallylsilane 2-573 reacts selectively in the presence of TiCl4 with two different aldehydes which are added sequentially to the reaction mixture. First, a Lewis acid-mediated allylation of the aldehyde with 2-573 takes place to form a homoallylic alcohol which reacts with the second aldehyde under formation of the oxenium ion 2-574. The sequence is terminated by a Prins-type cyclization of 2-574 and an intramolecular Friedel-Crafts alkylation of the intermediate 2-575 with formation of the fraws-1,2-be rizoxadeca lines 2-576 as single diastereomers. 

Fairbrother (76) fand bei der Friedel-Crafts-Reaktion zwisclien Benzol und Acetylchlorid in Gegenwart von A1C13, das mit radioaktivcm Chlor markiert war, einen vollstandigen Austausch zwischen dem radio-aktiven und dem inaktiven Chlor. Dieses Ergebnis spricht fur die Theorie von Meerwein (136) und W. Huckel (103), nach der intermediar ein komplexes Anion gebildet wird. 

The first example of SILP-catalysis was the fixation of an acidic chloroaluminate ionic liquid on an inorganic support. The acidic anions of the ionic liquid, [AI2CI7] and [AI3CI10], react with free OH-groups of the surface to create an anionic solid surface with the ionic liquid cations attached [72]. The catalyst obtained was applied in the Friedel-Crafts acylation of aromatic compounds. Later, the immobilisation of acidic ionic liquids by covalent bonding of the ionic liquid cation to the surface was developed and applied again in Friedel-Crafts chemistry [73]. 

Additions to quinoline derivatives also continued to be reported last year. Chiral dihydroquinoline-2-nitriles 55 were prepared in up to 91% ee via a catalytic, asymmetric Reissert-type reaction promoted by a Lewis acid-Lewis base bifunctional catalyst. The dihydroquinoline-2-nitrile derivatives can be converted to tetrahydroquinoline-2-carboxylates without any loss of enantiomeric purity <00JA6327>. In addition the cyanomethyl group was introduced selectively at the C2-position of quinoline derivatives by reaction of trimethylsilylacetonitrile with quinolinium methiodides in the presence of CsF <00JOC907>. The reaction of quinolylmethyl and l-(quinolyl)ethylacetates with dimethylmalonate anion in the presence of Pd(0) was reported. Products of nucleophilic substitution and elimination and reduction products were obtained . Pyridoquinolines were prepared in one step from quinolines and 6-substituted quinolines under Friedel-Crafts conditions <00JCS(P1)2898>. 

Aminophenols from anilines, 35, 2 Anhydrides of aliphatic dibasic acids, Friedel-Crafts reaction with, 5, 5 Anion-assisted sigmatropic rearrangements, 43, 2 Anthracene homologs, synthesis of, 1, 6 Anti-Markownikoff hydration of alkenes, 13, 1... 

Similarly, the efficiency of titanium tetrachloride as a terminator for the chain reaction should be related to the base strength of the complex anion TiCl4OH in the case of Friedel-Crafts catalysts in general, the terminator efficiency should be related to the base strength of the anion MXnOH- Since this quantity is inversely proportional to the acid... 

ILs can be immobilized on a functionalized support which contains one component of the IL or a precursor to such a component. The IL may be immobilized via the anion by treating a support with an anion source, e.g., an inorganic halide, before the IL is applied or formed. Alternatively, the IL may be immobilized by having the cation covalently bound to the support, e.g., through silyl groups, or incorporated in the support by synthesizing the support in the presence of a suitable base. The immobilized ILs are of use as catalysts, for example for the Friedel-Crafts reaction. 

An anionic equivalent of the Friedel-Crafts cyclization reaction has been developed for the formation of the C /C-5 bond of the 1,2-benzothiazine structure (Equation 35 Table 5) <1997SL1079>. In this reaction, directed metalation of sulfonamide-substituted aromatic systems 233 with an excess of LDA affords aryl lithium species 234 in a regiocontrolled fashion. This intermediate then reacts in situ with a proximal amide to form l,2-benzothiazine-4-one 1,1-dioxides 235. The yields of this transformation appear to be highly dependent upon the substitution pattern in 233. The authors attribute the low yield when = methyl and = H to a-deprotonation of the amide moiety. 

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