Nitrogen imide

The Nls sianalff i a 41 consists of a main peak at 400.8 eV due to nitrogen imide linking-up the two PMDA and ODA parts. The peak at 399 eV is probably fingerprinting some isoimide content into the material (15.). ... 

The imides, primaiy and secondary nitro compounds, oximes and sulphon amides of Solubility Group III are weakly acidic nitrogen compounds they cannot be titrated satisfactorily with a standard alkaU nor do they exhibit the reactions characteristic of phenols. The neutral nitrogen compounds of Solubility Group VII include tertiary nitro compounds amides (simple and substituted) derivatives of aldehydes and ketones (hydrazones, semlcarb-azones, ete.) nitriles nitroso, azo, hydrazo and other Intermediate reduction products of aromatic nitro compounds. All the above nitrogen compounds, and also the sulphonamides of Solubility Group VII, respond, with few exceptions, to the same classification reactions (reduction and hydrolysis) and hence will be considered together. 

Compounds that have two acyl groups bonded to a single nitrogen are known as imides The most common imides are cyclic ones... 

Section 20 16 Imides are compounds that have two acyl groups attached to nitrogen... 

The imide proton N-3—H is more acidic than N-1—H and hence this position is more reactive toward electrophiles in a basic medium. Thus hydantoins can be selectively monoalkylated at N-3 by treatment with alkyl haUdes in the presence of alkoxides (2,4). The mono-A/-substituted derivatives (5) can be alkylated at N-1 under harsher conditions, involving the use of sodium hydride in dimethylform amide (35) to yield derivatives (6). Preparation of N-1 monoalkylated derivatives requires previous protection of the imide nitrogen as an aminomethyl derivative (36). Hydantoins with an increased acidity at N-1—H, such as 5-arylmethylene derivatives, can be easily monoalkylated at N-3, but dialkylation is also possible under mild conditions. 

Isocyanates are derivatives of isocyanic acid, HN=C=0, ia which alkyl or aryl groups, as weU as a host of other substrates, are direcdy linked to the NCO moiety via the nitrogen atom. StmcturaHy, isocyanates (imides of carbonic acid) are isomeric to cyanates, ROCMSI (nitriles of carbonic acid), and nitrile oxides, RCMSI—>0 (derivatives of carboxyUc acid). 

Virtually all of the organo derivatives of CA are produced by reactions characteristic of a cycHc imide, wherein isocyanurate nitrogen (frequendy as the anion) nucleophilically attacks a positively polarized carbon of the second reactant. Cyanuric acid and ethylene oxide react neady quantitatively at 100°C to form tris(2-hydroxyethyl)isocyanurate [839-90-7] (THEIC) (48—52). Substitution of propylene oxide yields the hydroxypropyl analogue (48,49). At elevated temperatures (- 200° C). CA and alkylene oxides react in inert solvent to give A/-hydroxyalkyloxazohdones in approximately 70% yield (53). Alternatively, THEIC can be prepared by reaction of CA and 2-chloroethanol in aqueous caustic (52). THEIC can react further via its hydroxyl fiinctionahty to form esters, ethers, urethanes, phosphites, etc (54). Reaction of CA with epichlorohydrin in alkaline dioxane solution gives... 

There are various photochemical transformations of pyridazines, their corresponding benzo analogs, N-oxides and N-imides. Gas-phase photolysis of pyridazine affords nitrogen and vinylacetylene as the main products. Perfluoropyridazine gives first perfluoropyrazine, which isomerizes slowly into perfluoropyrimidine. 

Clearly, in the case of (66) two amide tautomers (72) and (73) are possible, but if both hydroxyl protons tautomerize to the nitrogen atoms one amide bond then becomes formally cross-conjugated and its normal resonance stabilization is not developed (c/. 74). Indeed, part of the driving force for the reactions may come from this feature, since once the cycloaddition (of 72 or 73) has occurred the double bond shift results in an intermediate imidic acid which should rapidly tautomerize. In addition, literature precedent suggests that betaines such as (74) may also be present and clearly this opens avenues for alternative mechanistic pathways. 

Azole iV-oxides, iV-imides and iV-ylides are formally betaines derived from iV-hydroxy-, iV-amino- and iV-alkyl-azolium compounds. Whereas iV-oxides (Section 4.02.3.12.6) are usually stable as such, in most cases theiV-imides (Section 4.02.3.12.5) andiV-ylides (Section 4.02.3.12.3) are found as salts which deprotonate readily only if the exocyclic nitrogen or carbon atom carries strongly electron-withdrawing groups. 

Tsai then applied thick films of the polyamic acid of PMDA and 4-BDAF to polished silver substrates and thermally imidized the films. The substrates were immersed into liquid nitrogen, causing the films to delaminate and XPS was used to examine the polyimide and silver fracture surfaces (see Fig. 33). The C(ls) spectra of the silver fracture surface were very similar to those of neat polyamic acid, indicating that imidization was inhibited by interaction of the polyamic acid with the silver substrate. This was evident from the observation of two peaks near... 

Pyridinium imides lacking a substituent on the exocyclic nitrogen atom do not yield di-azepines. 

In another approach to the meso problem , utilization of a chiral auxiliary attached at nitrogen appears to induce very high stereoselectivity. Reduction of the optically active imide 10a (see Appendix) with tetramethylammonium triacetoxyborohydridc in acetone/ acetic acid at 25 "C gives a 4 96 mixture of the diastcreomers 11a and 12a in 87% yield44. On changing the solvent to acetonitrile/acetic acid the diastereomeric ratio is improved to < 1 99, but the yield is lower (63%). 

The same auxiliary at nitrogen is used in the diastereoselective reduction of a series of bicyclic imides with sodium bis(2-methoxyethoxy)aluminum hydride or sodium diethylalu-minum hydride at — 78 "C, proceeding in 85-97% yield45 with d.r. values >75 25. 

Unsubstituted imides, with a single stereogcnic center appended to nitrogen, are stereoselective-ly reduced with lithium triethylborohydride at — 78 C with diastereoselectivities up to 100% in the case of severe steric crowding (Ar = 2,6-dichlorophenyl) (see Appendix)46. 

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