Iodination regioselective

A valuable feature of the Nin/Crn-mediated Nozaki-Takai-Hiyama-Kishi coupling of vinyl iodides and aldehydes is that the stereochemistry of the vinyl iodide partner is reflected in the allylic alcohol coupling product, at least when disubstituted or trans tri-substituted vinyl iodides are employed.68 It is, therefore, imperative that the trans vinyl iodide stereochemistry in 159 be rigorously defined. Of the various ways in which this objective could be achieved, a regioselective syn addition of the Zr-H bond of Schwartz s reagent (Cp2ZrHCl) to the alkyne function in 165, followed by exposure of the resulting vinylzirconium species to iodine, seemed to constitute a distinctly direct solution to this important problem. Alkyne 165 could conceivably be derived in short order from compound 166, the projected product of an asymmetric crotylboration of achiral aldehyde 168. 

Another way for regioselective CM is to protect one of the double bonds. In the synthesis of Amphidinol 3 (AM3) one of the double bonds was masked as iodoolefin 80 (Scheme 3.11) [144]. Reductive removal of the iodine was followed... 

The regioselective addition of nitryl iodide to alkenes, followed by base-induced elimination, gives nitroalkenes. Nitryl iodide is generally prepared by the reaction of AgN02 and iodine. 

A type Ilac synthesis of functionalized pyrroles was developed that adapted the Larock indole synthesis <06OL5837>. For example, treatment of iodoacrylate 19 and trimethylsilylphenylacetylene 20 with palladium acetate led to the formation of pyrrole-2-carboxylate 21 with excellent regioselectivity. 19 was prepared by iodinating (N-iodosuccinimide) the corresponding commercially available dehydroamino ester. 

A unique system for catalytic silaboration of allenes, in which a catalytic amount of organic halide is used as a crucial additive, has been reported (Equation (86)).232 In the presence of Pd2(dba)3 (5 mol%) with 3-iodo-2-methyl-2-cyclohexen-l-one (10mol%), reactions of terminal allenes with a silylborane afford /3-silylallylboranes in good yields with excellent regioselectivity. It is worth noting that the addition takes place at the terminal C=C bond in contrast to the above-mentioned palladium-catalyzed silaboration. The alkenyl iodide can be replaced with iodine or trimethylsilyl iodide. The key reaction intermediate seems to be silylpalladium(n) iodide, which promotes the insertion of allenes with Si-C bond formation at the central -carbon. 

Several methods exist for the synthesis of intricate, commercially unavailable halopyridines. By taking advantage of the different kinetic acidity at each site [C(4) > C(3) > C(2)], Gribble and Saulnier deprotonated 3-halopyridine regioselectively at C(4) and quenched the resulting 4-lithio-3-halopyridine with iodine to give 4-iodo-3-chloropyridine [1],... 

Iodobenzofuran was readily prepared by lithiation of benzofuran followed by iodine quench [8]. Bromination of benzofuran with bromine gave 2,3-dibromobenzofuran, which, when subjected to a regioselective halogen/metal exchange at the C(2) position with n-BuLi followed by quenching with methanol furnished 3-bromobenzofuran [9]. 

By carefully monitoring the pH of the reaction, regioselective diiodination was achieved. Treating imidazole with iodine at pH 12 furnished 2,5-diiodoimidazole. Selective reductive deiodination secured 2-iodoimidazole, which upon bromination afforded 4,5-dibromo-2-iodoimidazole [6],... 

The iodocyclization of 2-methallylmercapto benzimidazole 247 proceeded in a regioselective manner by treatment with iodine and aqueous KOH in chloroform to give the dihydro-thiazolo[3,2- ]benzimidazole 248 (Equation 108) <1999RJO730>. 

Scheme 8.13 and Eqs. 8.6-8.10 reveal that lithiated methoxyallene 42 is sufficiently reactive towards a variety of electrophiles such as alkyl halides [44, 45], ethylene oxide [12c], tosylated aziridine 45 [46], dimethyl disulfide [12b], trialkylstannyl and trialkylsilyl chlorides [47, 48] and iodine [49]. These substitution reactions proceed with excellent regioselectivity and the corresponding a-functionalized products are obtained in good to high yields. An exceptional case was found by treatment of 42 with a guanidinium salt, which led to a 60 40 mixture of a- and y-adducts 50 and 51 (Eq. 8.11) [50],... 

It is noteworthy that iodine addition in pyridine to 79 takes place regioselectively, with the iodine atom located exclusively in the product at C(7). Steric factors have been invoked again to explain the selectivity of the nucleophilic attack (equation 81). 

The anodic chlorination in some cases allows one to achieve better regioselec-tivities than chemical alternatives (p/o ratio of chlorotoluene in chlorination of toluene anodic 2.2, chemical alternative 0.5-1.0) [215]. Anodic oxidation of iodine in trimethyl orthoformate afforded a positive iodine species, which led to a more selective aromatic iodination than known methods ]216]. Aryliodination is achieved in good yield, when an aryhodide is oxidized in HOAc, 25% AC2O, 5% H2SO4 in the presence of an arene ]217, 218]. Alkyl nitroaromatic compounds, nitroaromatic ketones, and nitroanihnes are prepared in good yields and regioselectivity by addition of the corresponding nucleophile to a nitroarene and subsequent anodic oxidation of the a-complex (Table 13, number 11) ]219, 220]. 

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