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Arylboronic acids reactions

This method has been applied to a large-scale preparation of 6-bromoindole, which reacts with various arylboronic acids via the Suzuki reaction to afford 6-aryhndoles fEq. 10.50. 6-Bromo-5-methoxyindole for use in the synthesis of marine bromoindole " and 5-amino-7-ethoxycarbonyhndole for use in synthesis of l//-pyrrolo[3,2-g quina2ohne ring system fEq. 10.51 " have been prepared from the appropriate o-nitrotoluene. [Pg.339]

SOLVENT ISOTOPE EFFECTS FOR REACTION OF ARYLBORONIC ACIDS WITH ACID IN... [Pg.292]

As first described by Krizan and Martin,6 the in situ trapping protocol, i.e., having the base and electrophile present in solution simultaneously, makes it possible to lithiate substrates that are not applicable in classical ortho-lithiation reactions.7 Later, Caron and Hawkins utilized the compatibility of lithium diisopropylamide and triisopropyl borate to synthesize arylboronic acid derivatives of bulky, electron deficient neopentyl benzoic acid esters.8 As this preparation illustrates, the use of lithium tetramethylpiperidide instead of lithium diisopropylamide broadens the scope of the reaction, and makes it possible to functionalize a simple alkyl benzoate.2... [Pg.71]

Microwave and fluorous technologies have been combined in the solution phase parallel synthesis of 3-aminoimidazo[l,2-a]pyridines and -pyrazines [63]. The three-component condensation of a perfluorooctane-sulfonyl (Rfs = CgFiy) substituted benzaldehyde by microwave irradiation in a single-mode instrument at 150 °C for 10 min in CH2CI2 - MeOH in the presence of Sc(OTf)3 gave the imidazo-annulated heterocycles that could be purified by fluorous solid phase extraction (Scheme 9). Subsequent Pd-catalyzed cross-coupling reactions of the fluorous sulfonates with arylboronic acids or thiols gave biaryls or aryl sulfides, respectively, albeit it in relatively low yields. [Pg.40]

Remarkably, one year later Leadbeater described that biaryls can be synthesized via a Suzuki-type coupling under transition-metal free conditions [51, 52]. The reaction conditions were almost identical to those reported for the ligand-free process, with the difference being that a larger amoimt of Na2C03 and arylboronic acid were used. Only one successful example of a heteroaryl haUde substrate is shown namely, the coupling of 2-bromopyridine with phenylboronic acid (Scheme 32). 3-Bromothiophene did not couple under the same reaction conditions. Unfortimately, attempts to use heteroarylboronic acids such as 3-pyridinylboronic acid, 3-thienylboronic acid, and lH-indol-5-ylboronic acid on 4-bromoacetophenone completely failed. [Pg.171]

Oxidative Heck arylation of enamides with arylboronic acids, using oxygen gas as a reoxidant for Pd(0) and 2,9-dimethyl-1,10-phenanthroline as a chelating regiocontrolling ligand, yielded a (= internally) arylated reaction product as the major compound with a very good a//3 selectivity [92]. Microwave irradiation with prepressurized sealed vials proved useful in reducing the reaction time (Scheme 82). [Pg.197]

If 2,6-pyridinedimethanol is condensed with arylboronic acids in non-polar solvents, the tetrameric boron complexes 74 and 75 are formed rapidly (within 15-30 min) in yields of 80 and 93% (Fig. 20). In both cases only the RSRSI SRSR enantiomeric pair with approximate S4-symmetry is obtained, so that the reaction is diastereoselective. [Pg.22]

Fig. 20. Reaction of 2,6-pyridinedimethanol with arylboronic acids gives the tetrameric macrocycles 74 and 75. Dimeric compounds are known with silicon 76 and 77 and sulfur 78... Fig. 20. Reaction of 2,6-pyridinedimethanol with arylboronic acids gives the tetrameric macrocycles 74 and 75. Dimeric compounds are known with silicon 76 and 77 and sulfur 78...
The Suzuki reaction has proved extremely versatile and has found extensive use in natural product. synthesis. " Arylboronic acids [ArB(OH)2 are the usual substrates in this reaction together with arylhalides or triflates (Ar X, X = halogen... [Pg.208]

The optimal reaction conditions were applied with 59d in the addition of various aryl boronic acids and potassium trifluoroborates to several cyclic and acyclic enones (Fig. 8). Arylboronic acids added to cyclic enones in high yields (89-97%) and with good to excellent selectivities (85-98% ee). Under these conditions, the potassium trifluoroborate reagents reacted at faster rates, but with slightly lower selectivities (83-96% ee). The reactions of acyclic enones with aryl boron reagents gave also excellent yields (83-96%). [Pg.214]

The MH-type reaction of silanols and organotin compounds with olefins via a Pd(II)-mediated pathway has been reported by Hiyama and co-workers. Based on this pathway, a plausible MH-type reaction mechanism with arylboronic acids was presented in Fig. 26. According to this mechanism, the aryl unit migrated to... [Pg.284]

Reaction of arylboronic acid with allyl-2,3,4,6-tetra-0-acetyl-P-D-glucopyranoside... [Pg.285]

Figure 26 Plausible Mizoroki-Heck type reaction pathway with arylboronic acid. Figure 26 Plausible Mizoroki-Heck type reaction pathway with arylboronic acid.
The facile arylation of aldehydes with arylboronic acid has prompted the exploration of asymmetric versions of this reaction. However, this field has been scarcely explored and only few examples have been reported in the literature, with moderate results. The first diastereoselective example was described by Ftirstner and coworkers. By reacting the Gamer aldehyde 15 with phenylboronic acid under their set of experimental conditions (i.e. RhClj-SH O, IPr HCl) (Scheme 7.4) [21], the secondary alcohol was obtained in higher selectivity than that observed in the addition of phenylmagnesium bromide reported by Joullie (de = 94% versus 66%), with the anti isomer as the major compound [29]. [Pg.196]

So far, there is only one report describing the use of chiral NHC-metal complexes in catalytic asymmetric arylation of imines. This was achieved by using C -symmetric cationic NHC-Pd diaquo complex 20 (Scheme 7.6) [38]. The arylation of a variety of A-tosylimines with different arylboronic acids was carried out under mild conditions. The presence of electron-withdrawing or electron-donating substituents on both partners did not seem to affect the reaction and the corresponding chiral diarylamines were obtained in good to excellent yields and high enantiomeric excess. [Pg.197]

Yamamoto and co-workers reported abase- and ligand-free palladium (II) catalysed method, in methanol at room temperature and under air [49], While the conversion of arylboronic acids bearing an electro-donating group was very efficient, the presence of an electro-withdrawing substituent led to lower conversions. To solve this problem and also prevent the fast formation of palladium black, Yamamoto and co-workers described a new approach where the reaction was catalysed by NHC-bearing complexes 21 and 22 in the presence of an oxidant (Fig. 7.4) [50]. The best results were obtained when complex 21b was used in methanol at room temperature, in the presence of a small excess of p-benzoquinone. [Pg.199]

A closely related reaction that is currently receiving much attention is the palladium-catalysed Suzuki coupling of arylboronic acids with aryl halides (Fu and Littke, 1998). For example, this technology has recently been applied by Clariant workers for the production of o-tolyl-benzonitrile (Eqn. (13)), an intermediate to a series of so-called angiotensin-II antagonists, a new class of antihypertensive drugs (Bernhagen, 1998). [Pg.42]

Biphasic systems were found to have a unique effect on the selectivity of the addition of arylboronic acids to alkynes. It was found that the use of [Rh(COD)OH]2 associated with the water-soluble ligand, m-TPPTC, was highly effective for such a reaction in the biphasic water/toluene system (Eq. 4.51).91 The reaction was completely stereo-and regioselective. In addition, the catalyst did not lose any activity... [Pg.125]


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Arylboronates

Arylboronic acids cross-coupling reactions

Arylboronic acids, coupling reactions

Copper-mediated reactions arylboronic acids

Diels-Alder reactions arylboronic acids

Halides, aryl reaction with arylboronic acids

Heck reaction with arylboronic acids

Reaction of arylboronic acids having

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