Additionen von Stickstoffbasen an cyclische Organoborsäureester

Additive-Reactions of Nitrogen Bases to Cyclic Esters of Organoboric Acids The reaction of BBr₃, C₆H₅BCl₂ and CH₃BBr₂ with Diols respectively Dithiols yields 2-Bromo- and 2-Organo-1,3,2-diheteroborolanes, -borinanes and -boroles. These compounds and also non cyclic esters and thioesters of organoboric acids are reacted with pyridine, 2-picoline, 4-picoline and 2,4,6-collidine and thereby the enthalpie (ΔH) is measured. From these values it is tried to conclude on Lewis acidity of the boron atom in the different compounds.     

1,3-Dipolare Cycloaddition aromatischer Nitril-ylide und Nitril-oxide an Dicyan und Diazocyanide

1,3 Dipolar Cycloaddition of Aromatic Nitrile Ylides and Nitrile Oxides with Cyanogen and Diazocyanides Nitril ylides 2 generated from the imidoyl chlorides 1 react with cyanogen and aryldiazocyanides to 2,5(4)-dia-ryl-1H-imidazole-4(5)-carbonitriles 3a , b or 5(4)-(arylazo)-2,4(5)-diaryl-1H-imidazoles 4a and 2,3,5-triaryl-2,3-dihydro-1H-1,2,4-triazole-1-carbonitriles 5a – f , respectively (Scheme 1). Reactions of benzonitrile oxides 7 with these dipolarophiles lead to 3,3′-diaryl-5,5′-bi[1,2,4]oxadiazoles 8a – c or 3-aryl-5-(arylazo)-1,2,4-oxadiazoles 9a – j (Scheme 2).     

Offene und cyclische Methylstibonigsäureester. II

Esters of Methylstibonous Acid. II. The reaction of methyldibromstibine with sodium alcoholates and phenolates yield methyldialkoxi and methyldiphenoxistibines. Interchange reactions of the methyldiethoxistibine with thiols, 1,2-diols, 1,2-dithiols, and 2-mercapto-1-oles form dithioesters and cyclic esters of the methylstibonous acid in nearly quantitativ amount and high purity.     

Offene und cyclische Stibonigsäureester. III

Esters of Stibonous Acid Antimony tribromide reacts with t-butylmagnesium chloride in the ratio of 1:1 at low temperature under formation of t-butyldibromostibine. The reaction with sodium alcoholates yields t-butyldialkoxistibines. Interchange reactions with 1,2-diols give 2-t-butyl-1,3,2-dioxastiboles and -stibolanes, which do not form coordination polymeres.     

Die 1,3-dipolare Cycloaddition von Acetylendicarbonsäure-estern an 2-Methyl-4-phenyl-chinazolin-3-oxid

The 1,3-dipolar addition of acetylenedicarboxylic esters (IX and X) to 2-methyl-4-phenyl-quinazoline 3-oxide (VIII) in benzene/methanol and benzene/ethanol, respectively, gives the esters XI and XII of 3-amino-3-phenyl-2-(2-acetamidophenyl)-acrylic acid as main products and the esters XIII and XIV of 2-methyl-4-phenyl-5H-benzo[d][1,3]diazepin-5-carboxylic acid as by-products. The constitutions of XI and XII are elucidated by acid hydrolysis to the 2-phenylindole-3-carboxylic esters VI and VII, respectively, and by ozonolysis of XII to give benzamide and ethyl o-acetamido-mandelate (IV). The alkaline hydrolysis of XI or XII gives the enamine derivative XVIII, which is hydrolysed by acid to oxindole and benzoic acid. The structure elucidation of XIII and XIV is based on spectroscopic data together with thc formation of XV by alkaline hydrolysis. Mechanisms arc proposed for the reaction paths.     

1,3-Dipolare cycloadditionen von 6,7-dialkoxy-3,4-dihydroisochinolinium-Salzen

1,3-Dipolar cycloaddition of 6,7-dialkoxy-3,4-dihydroisoquinolinium salts to dipolarophiles of azomethin- and alkene type have been investigated. The regioselectivity of the reactions rationalized on the basis of the perturbation theory, using CNDO/2 and CNDO/S approximations. Good agreement between the calculated and experimental results was achieved only when a distance of 3 Å in the transition state between the molecules was chosen. The exo/endo ratio of the cycloadducts has also been rationalized.     

1,3-Dipolare Cycloadditionen eines Carbonyl-ylids mit 1,3-Thiazol-5(4H)-thionen und Thioketonen

1,3-Dipolar Cycloadditions of a Carhonyl-ylide with 1,3-Thiazole-5(4H)-thiones and Thioketones Inp-xylene at 150°, 3-phenyloxirane-2,2-dicarbonitrile ( 4b ) and 2-phenyl-3-thia-1-azaspiro[4.4]non-1-ene-4-thione ( 1a ) gave the three 1:1 adduets trans- 3a , cis- 3a , and 13a in 61, 21, and 3% yield, respectively (Scheme 3). The stereoisomers trans- 3a and cis- 3a are the products of a regioselective 1,3-dipolar cycloaddition of carbonylylide 2b , generated thermally by an electrocyclic ring opening of 4b (Scheme 6), and the C?S group of 1a . Surprisingly, 13a proved not to be a regioisomeric cycloadduct of 1a and 2b , but an isomer formed via cleavage of the O? C(3) bond of the oxirane 4b . A reaction mechanism rationalizing the formation of 13a is proposed in Scheme 6. Analogous results were obtained from the reaction of 4b and 4,4-dimethyl-2-phenyl-1,3-thiazole-5 (4H)-thione ( 1b , Scheme 3). The thermolysis of 4b in p-xylene at 130° in the presence of adamantine–thione ( 10 ) led to two isomeric 1:1 adducts 15 and 16 in a ratio of ca. 2:1, however, in low yield (Scheme 4). Most likely the products are again formed viathe two competing reaction mechanisms depicted in Scheme 6. The analogous reactions of 4b with 2,2,4,4-tetramethylcyclobutane-1,3-thione ( 11 ) and 9H-xanthene-9-thione ( 12 ) yielded a single 1:1 adduct in each case (Schemes). In the former case, spirocyclic 1,3-oxathiolane 17 , the product of the 1,3-dipolar cycloaddition with 2a corresponding to 3a , was isolated in only 11 % yield. It is remarkable that no 2:1 adduct was formed even in the presence of an excess of 4b. In contrast, 4b and 12 reacted smoothly to give 18 in 81 % yield; no cycloadduct of the carbonylylide 2a could be detected. The structures of cis- 3a , 13a , 15 , and 18 , as well as the structure of 14 , which is a derivative of trans- 3a , have been established by X-ray crystallography (Figs. 1–3, Table).     

Synthese und pericyclische Reaktionen von 4, 4a-Dehydro-α-bicyclofarnesensäureester

The title compound 3 was isolated after pyrolysis of cis/trans- 1 at 240°, respectively of cis/trans- 8 at 156°. Thermolysis of cis/trans- 8 at 111° resulted in the deconjugated product 9 , which subsequently could be rearranged via a [1,7] H-shift preferentially into the trans-isomer of 8 . Upon heating at 250°, 3 underwent a series of pericyclic reactions to furnish 11 , whereas epi- 3 did not react under these conditions.     

Über die Reaktion von Propiolsäure und Propiolsäureester mit Cyclohexanon

In the presence of potassium t-butoxide or potassium hydroxide, propiolic acid adds two molecules of cyclohexanone to form the isomeric seq-cis- and seq-trans-7, 14-Dioxa-dispiro[5.1.5.2]pentadec-15-yliden-acetic acids IIa and IIIa, respectively. Methyl propiolate and cyclohexanone react analogously in the presence of potassium t-butoxide, yielding the corresponding esters. The structure of these condensation products follows from their physical properties and from degradation reactions to known compounds.