Succinimide, bromination

The key step in their-approach was asymmetric photoisomerization of the a, 3-unsaturated (Z)-ketone precursor 103b in diethyl ( + )-Lg-tartrate. The bromide 103a obtained by N-bromo-succinimide bromination of the (Z)[8.8] precursor 64b, was converted into the a,P-unsaturated (Z)-ketone 103b by the routine synthetic procedures. Irradiation in a hexane solution with a medium pressure Hg lamp effected the photoisomerization of the (Z)-precursor 103b to afford a 1 5.5 mixture of (Z)-( )[8.8] ketones. After these preliminary experiments, a neat solution of 103 b in diethyl ( + )-Lg-tartrate was irradiated for 3 h. Preparative GLC of the resulting 1 7 mixture of (Z) and ( )[8.8] ketones produced a 38 % yield of ( )[8.8] ketone 104 enriched in the (—)-enantiomer, [a]n4 —13° (hexane). 

A -Bromosuccinimide (prepared by the action of bromine on succinimide at o in the presence of sodium hydroxide) is a valuable specific reagent for brominating olefines in the a-methylene position to the double bond without simultaneously adding bromine to this bond. For example, if A -bromosuccini-mide is represented by (C4H40t)NBr —... 

The substitution is best carried out by boiling A -bromosuccinimide with the olefine in carbon tetrachloride. Succinimide crystallises out from the carbon tetrachloride on cooling w hereas the brominated product remains dissolved in the carbon tetrachloride. 

METHYL y-BROMOCROTONATE JV-Bromosuccinimide. Dissolve, with the aid of rapid mechanical stirring, 80 g. of pure succinimide (Section V,14) in a mixture of 150 g. of finely crushed ice and a solution of 32 g. of sodium hydroxide in 200 ml. of water contained in a litre beaker and cooled externally by ice. Immediately the imide has dissolved, continue the vigorous stirring and introduce 42 -5 ml. of bromine in one lot from a separatory funnel supported over the beaker it is essential that the bromine be instantly suspended in the solution. After stirring vigorously for 2 minutes, filter at the pump and... 

A more active product is obtained by the following slight modification of the above procedure. Dissolve the succinimide in a slight molar excess of sodium hydroxide solution and add the bromine dissolved in an equal volume of carbon tetrachloride rapidly and with vigorous stirring. A finely crystalline white product is obtained. Filter with suction and dry thoroughly the crude product can be used directly. It may be recrystallised from acetic acid. 

The next two bromination recipes use recyclable bromine donors that can be used over and over again. They are called dioxane and succinimide and are more common than you think. No, dioxane is not the same as the notorious dioxin but it is still pretty toxic. 

Replacement of the proton on nitrogen in succinimide by bromine gives N bromo succinimide a reagent used for allylic and benzylic brominations (Sections 10 4 and 1112)... 

Halogen-substituted succinimides are a class of products with important appHcations. /V-Bromosuccinimide [128-08-5] mp 176—177°C, is the most important product ia this group, and is prepared by addition of bromine to a cold aqueous solution of succinimide (110,111) or by reaction of succinimide with NaBr02 iu the presence of HBr (112). It is used as a bromination and oxidation agent ia the synthesis of cortisone and other hormones. By its use it is possible to obtain selective bromine substitution at methylene groups adjacent to double bonds without addition reactions to the double bond (113). 

V-Chlorosuccinimide [128-09-6] mp 150—151°C, forms orthorhombic crystals and has a chlorine-like odor it is prepared from succinimide and hypochlorous acid (114,115). Because of its powerhil germicide properties, it is used ia disiafectants for drinking water. Like its bromine derivative, it is also a halogenating agent. 

V-Bromosuccinimide and A/,A7-dibromo-5,5-dimethyIhydantoin have also been used successhdly, which makes possible recycling of succinimide or the hydantoin and utilizes all the bromine atoms. A mixture of sodium bromide—sodium bromate in aqueous acid has also been used commercially. 

The substitution reactions of 3-acetamidothiophene have been extensively investigated. From the bromination with A-bromosuc-cinimide and from the chlorination with sulfuryl chloride or A-chloro-succinimide only the 2-isomers were obtained, the structure of which... 

The isoxazole nucleus is also halogenated in the 4-position by N-bromosuccinimide provided there is no substituent in this position. This reaction does not proceed homolytically, as might have been expected, and appears to represent a simple electrophilic substitution by the bromine cation. Similar cases have been previously described for the bromination of certain aromatic compounds with A -bromo-succinimide. ... 

Simple alkyl halides can be prepared by radical halogenation of alkanes, but mixtures of products usually result. The reactivity order of alkanes toward halogenation is identical to the stability order of radicals R3C- > R2CH- > RCH2-. Alkyl halides can also be prepared from alkenes by reaction with /V-bromo-succinimide (NBS) to give the product of allylic bromination. The NBS bromi-nation of alkenes takes place through an intermediate allylic radical, which is stabilized by resonance. 

Bromination of a-ergocriptine 2 with commercial N-bromosuccinimide (NBS) can lead to the formation of traces of a mysterious by-product, finally identified as 2-chloro-a-ergocryptine 4. Investigation of NBS indicated that it contains up to 1.5 % of chlorine (probably as N-chloro-succinimide, NCS). This chlorination occurs only in the presence of NBS, never with NCS alone ... 

Another reagent that is extremely useful synthetically is N-bromo-succinimide (NBS, 85), which is highly selective in attacking only weak C—H bonds, i.e. at allylic, benzylic, etc., positions. It requires the presence of radical initiators, and has been shown to effect bromination through providing a constant, but very low, ambient concentration of Br2—this is maintained through reaction of the HBr produced in the reaction with NBS (c, below). TTiere is usually a trace of Br2 or HBr in the NBS that can react with the initiator to generate the initial Br to start reaction (a, below) ... 

Kojic acid was brominated at position 6 with bromine water4 the 2-(chloromethyl) derivative of kojic acid was brominated with N-bromo-succinimide,87 and chlorinated with sulfuryl chloride and aluminum chloride,88 in both cases probably at C6. The C-benzoylation89 and C-acetylation90 of kojic acid, likewise at C6, was accomplished by Woods using a modification of the Friedel-Crafts reaction. The 2-carboxyethyl side chain was introduced at C6 in a reaction with 2-bromopropionic acid.91... 

It is a very important derivative of succinimide and is easily prepared by the action of bromine on succinimide at 0°C in presence of NaOH. 

Table 4.1 compares two different reactions, namely, anode oxidation and oxidation with cerium ammonium nitrate (which are bona fide electron transfer processes) and bromination by (V-bromo-succinimide in the presence of azobis(iA(9butyro)nitrile (which is a bona fide hydrogen-atom-transfer... 

Borowiak, T., Kubicki, M., Wysocka, W. and Przybyl, A. 1998. Regioselective bromination of multiflorine and structures of 3-bromomultiflorine and its molecular complex with succinimide. Journal of Molecular Structure, 442 103-113. 

Bugge brominated thienothiophenes 1 and 2 with IV-bromo-succinimide in glacial acetic acid to 2-bromothieno[2,3-6]thiophene (66%) and 2-bromothieno[3,2-6]thiophene (55%). The structure of 2-bromothieno[2,3-6]thiophene was confirmed by the replacement of bromine by lithium at —70° followed by carbonation to thieno[2,3-6j-thiophene-2-carboxylic acid 2-bromothieno[3,2-fe]thiophene was independently prepared by the treatment of 2-lithiothieno[3,2-6]thiophene with one equivient of bromine at —70°. The 2-bromo derivatives of thienothiophenes 1 and 2 decompose within several hours at 20°, but remain uncWged for weeks at —15°. 

---