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Aziridines amines

Reduction of iV-(3-bromopropyl) imines gives a bromo-amine in situ, which cyclizes to the aziridine. Five-membered ring amines (pyrrolidines) can be prepared from alkenyl amines via treatment with N-chlorosuccinimide (NCS) and then BusSnH. " Internal addition of amine to allylic acetates, catalyzed by Pd(PPh3)4, leads to cyclic products via a Sn2 reaction. Acyclic amines can be prepared by a closely related reaction using palladium catalysts. Three-membered cyclic amines (aziridines)... [Pg.500]

The ORD curves and ECD spectra of a number of chiral methyl-substituted cyclic amines, aziridine, azetidine, pyrrolidine and piperidine, and their A-mcthyl, A-halo and A-cyano derivatives, and of (5 )-l-azabicyclo[3.1.0]hexane [(5 )-115] were measured96. [Pg.132]

The tunneling frequency is expected to be much smaller when the inversion barrier becomes high and thick and when the reduced mass of the systems increases. In such cases (for instance, tertiary amines, aziridines. . .) the rate of tunneling is expected to add little to the rate... [Pg.36]

Primary allylic amines. Aziridines can be converted into allyl carbamates by reaction with ethyl chloroformate to form N-ethoxycarbonylaziridines followed by thermolysis in benzene at 200-250°, Rearrangement of trisubstituted ethoxycarbonylaziridines is regiospecific. [Pg.223]

Polymerization of 3-membered cyclic amines-aziridines is a good example to illustrate the influence of steric factor on the relative rates of propagation and termination. [Pg.481]

Hydroxy-l -(1 -methy l-cyclohexyl)-EI6c, 791 (C1C — oxiran/Amin) Aziridin... [Pg.815]

Just as epoxides can be opened by amines to give hydroxy amines, aziridines can be opened to give diamines.With bicyclic aziridines, the major product is usually the trans diamine. A-Aryl or A-alkyl aziridines react with amines in the presence of Sn(OTf)2 or to give the diamine. Amines react with A-tosylazir-... [Pg.566]

Scheme 7. Examples for Enantiomer Separations by Crystallization with TADDOLs. Besides the original TADDOL (from tartrate acetonide and PhMgX), Toda et al. [44] have often used the cyclopentanone- and cyclohexanone-derived analogs. The dynamic resolution (resolution with in-situ recychng) of 2-(2-methoxyethyl)cyclohexanone was reported by Tsunoda et al. The resolved compounds shown here are only a small selection from a large number of successful resolutions, which include alcohols, ethers, oxiranes, ketones, esters, lactones, anhydrides, imides, amines, aziridines, cyanohydrins, and sulfoxides. The yields given refer to the amount of guest compound isolated in the procedure given. Since we are not dealing with reactions (for which we use % es to indicate enantioselectivity with which the major enantiomer is formed), we use % ep (enantiomeric purity of the enantiomer isolated from the inclusion... Scheme 7. Examples for Enantiomer Separations by Crystallization with TADDOLs. Besides the original TADDOL (from tartrate acetonide and PhMgX), Toda et al. [44] have often used the cyclopentanone- and cyclohexanone-derived analogs. The dynamic resolution (resolution with in-situ recychng) of 2-(2-methoxyethyl)cyclohexanone was reported by Tsunoda et al. The resolved compounds shown here are only a small selection from a large number of successful resolutions, which include alcohols, ethers, oxiranes, ketones, esters, lactones, anhydrides, imides, amines, aziridines, cyanohydrins, and sulfoxides. The yields given refer to the amount of guest compound isolated in the procedure given. Since we are not dealing with reactions (for which we use % es to indicate enantioselectivity with which the major enantiomer is formed), we use % ep (enantiomeric purity of the enantiomer isolated from the inclusion...
Addition of Enolates and Metalloalkyls to Imines. Stereospecific Synthesis of p-Lactams, Amines, Aziridines and Aminols... [Pg.25]

PROBLEM 6.14 In contrast to simple amines, aziridines (three-membered rings containing a nitrogen) can often be separated into enantiomers. For example, the activation energy (AG ) for the inversion of 1,2,2-trimethylaaridine is about 18.5 kcal/mol, much higher than that for simple amines. [Pg.244]

Reducing agent Use of strong reduction agents like hydrazine removes oxygen but tends to leave C—N groups in the form of hydrazones, amines, aziridines, etc., which adversely affect the electronic stmcture and properties of reduced GO (Dteyer et al., 2009). [Pg.182]

The two-bond disconnection (re/ro-cycloaddition) approach also often works very well if the target molecule contains three-, four-, or five-membered rings (see section 1.13 and 2.5). The following tricyclic aziridine can be transformed by one step into a monocyclic amine (W. Nagata, 1968). In synthesis one would have to convert the amine into a nitrene, which-would add spontcaneously to a C—C double bond in the vicinity. [Pg.212]

Primary and secondary amines also react with epoxides (or in situ produced episulfides )r aziridines)to /J-hydroxyamines (or /J-mercaptoamines or 1,2-diamines). The Michael type iddition of amines to activated C—C double bonds is also a useful synthetic reaction. Rnally unines react readily with. carbonyl compounds to form imines and enamines and with carbo-tylic acid chlorides or esters to give amides which can be reduced to amines with LiAlH (p. Ilf.). All these reactions are often applied in synthesis to produce polycyclic alkaloids with itrogen bridgeheads (J.W. Huffman, 1967) G. Stork, 1963 S.S. Klioze, 1975). [Pg.291]

The reaction of the vinylcyclopropanedicarboxylate 301 with amines affords an allylic amine via the 7r-allylpalladium complex 302[50]. Similarly, three-membered ring A -tosyl-2-(l,3-butadienyl)aziridine (303) and the four-mem-bered ring azetidine 304 can be rearranged to the five- and six-membered ring unsaturated cyclic amines[183]. [Pg.331]

Polymerization. The polymerization of aziridines takes place ia the presence of catalytic amounts of acid at elevated temperatures. The molecular weight can be controlled by the monomer—catalyst ratio, the addition of amines as stoppers, or the use of bifimctional initiators. In order to prevent a vigorous reaction, the heat Hberated during the highly exothermic polymerization must be removed by various measures, ie, suitable dilution, controlled metering of the aziridine component, or external cooling after the reaction has started. [Pg.11]

All lene Oxides and Aziridines. Alkyleneamines react readily with epoxides, such as ethylene oxide [75-21-8] (EO) or propylene oxide [75-56-9] (PO), to form mixtures of hydroxyalkyl derivatives. Product distribution is controlled by the amine to epoxide mole ratio. If EDA, which has four reactive amine hydrogens, reacts at an EDA to EO mole ratio which is greater than 1 4, a mixture of mono-, di-, tri,-, and tetrahydroxyethyl derivatives of EDA are formed. A 10 1 EDA EO feed mole ratio gives predominandy 2-hydroxyethylethylenediamine [111-41-1], the remainder is a mixture of bis-(2-hydroxyethyl)ethylenediamines (7). If the reactive NH to epoxide feed mole ratio is less than one and, additionally, a strong basic catalyst is used, then oxyalkyl derivatives, like those shown for EDA and excess PO result (8,9). [Pg.41]

Alkylaziridines can be stereospecifically deaminated to alkenes by reaction with m-chioroperbenzoic acid (70AG(E)374). The reaction and work-up are carried out in the dark to avoid isomerization of the cw-alkene, and the mechanism is thought to involve an initial oxidation to an amine oxide followed by a concerted elimination. Aziridine oxides have been generated by treating aziridines with ozone at low temperatures (71JA4082). Two... [Pg.74]

Preparative routes to aziridines and 1-azirines are derived from cycloelimination processes in which one, and sometimes two, bonds are formed directly to the nitrogen atom (Scheme 1). For aziridines these include the two intramolecular cyclization pathways involving either nucleophilic displacement by the amine nitrogen (or nitrenium anion) on the /3-carbon (route a) or nucleophilic displacement by a /3-carbanionic centre on the amine nitrogen... [Pg.80]

The commonest of these for oxirane opening are amines and azide ion [amide ions promote isomerization to allylic alcohols (Section 5.05.3.2.2)]. Reaction with azide can be used in a sequence for converting oxiranes into aziridines (Scheme 49) and this has been employed in the synthesis of the heteroannulenes (57) and (58) (80CB3127, 79AG(E)962). [Pg.111]

The mechanism of the reaction is unknown. The stereospecificity observed with (E)- and (Z)-l-methyl-2-phenylethylene points to a one-step reaction. The very low Hammett constant, -0.43, determined with phenylethylenes substituted in the benzene ring, excludes polar intermediates. Yields of only a few percent are obtained in the reaction of aliphatic alkenes with (52). In the reaction of cyclohexene with (52), further amination of the aziridine to aminoaziridine (99) is observed. Instead of diphenylazirine, diphenylacetonitrile (100) is formed from diphenylacetylene by NH uptake from (52) and phenyl migration. [Pg.210]

Photoelectron spectroscopic studies show that the first ionization potential (lone pair electrons) for cyclic amines falls in the order aziridine (9.85 eV) > azetidine (9.04) > pyrrolidine (8.77) >piperidine (8.64), reflecting a decrease in lone pair 5-character in the series. This correlates well with the relative vapour phase basicities determined by ion cyclotron resonance, but not with basicity in aqueous solution, where azetidine (p/iTa 11.29) appears more basic than pyrrolidine (11.27) or piperidine (11.22). Clearly, solvation effects influence basicity (74JA288). [Pg.239]

In aqueous solution, azetidine (p/sTa 11.29) is slightly more basic than pyrrolidine and larger-ring cyclic amines and appreciably more basic than aziridine. It forms an addition compound (m.p. - 9 to -6 °C) with trimethylboron which is more stable than that formed by pyrrolidine (50JA2926, 64HC(l9-2)885). Azetidinium salts are well known (Section 5.09.2.2.7). [Pg.240]


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See also in sourсe #XX -- [ Pg.26 , Pg.55 ]

See also in sourсe #XX -- [ Pg.26 , Pg.55 ]




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Amines aziridines, 2-cyano

Amines reaction with aziridines

Aziridine amine

Aziridine-2-carboxylate ester amine

Aziridines allylic amines

Aziridines amination

Aziridines amination

Aziridines from bromo-amines

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