Malononitriles substituted

Ruthenium(II) Treatment of [Ru(NH3)5(OH2)]2+ or [Ru(NH3)5(acetone)]2+ with L or [RuCl(NH3)5]2+ with zinc amalgam in the presence of L yields [RuL(NH3)5]2+ (L = acetonitrile, benzonitrile,358 substituted benzonitrile,196 358 359 acrylonitrile,360 hydrogen cyanide,36,37 ethyl cyano-formate,361 dicyanamide, malononitrile, substituted malononitrile, tricyanomethanide,362 4-cyano-l-methylpyridinium196). Reaction of a hundred-fold excess of RCHO (R = Ph, Me) with [Ru(NH3)6]2+ under alkaline conditions yields [Ru(NH3)sNCR]2+.363-365 The likely mechanism of this reaction is given in Scheme 12. An alternative route to nitrile complexes is by reaction of [Ru(NH3)sOH2]2+ with aldoximes, e.g. RMeC=NOH, to afford [Ru(NH3 )5 (NCMe)]2 + and... 

The first reaction can be conducted using various derivatives of methylenemalonic ester, such as malononitriles 7, malonamides 8, P-keto-esters 9 or Meldrum s acid 10. Substitutions of the aryl ring (including fused rings) and within the aryl ring are well tolerated for this reaction. 

Finally we have performed the Michael addition reactions of malononitrile and 3-(2-alkenoyl)-2-oxazolidinones in dichloromethane in the presence of the R,R-DBF0X/Ph-Ni(C104)2-31 20 and TMP (10 mol% each). Enantioselectivities were a little lower than 90% ee for acceptors having a variety of / -substituents. The best selectivity was 94% ee in the reaction of t-butyl-substituted acceptor (Scheme 7.50). 

Trifluoroacetohydroximoyl bromide etherate is a synthon for thiadiazo-lines and oxadiazolines (87JHC1391). A fused isoxazolopyridine was obtained with excess malononitrile but, unexpectedly, dimeric malononitrile gave a highly substituted 2-(CF3)-pyridine, albeit in 9% yield (87BCJ4480). 

As stated above under TNMe, in Ger during WWII, the prepn of TeNMe by this process was scaled up for use as an intermediate and as a substitute for nitric acid in the V-2 rocket (Ref 26). A pilot plant was built at Newark, NJ for prodn using this procedure. It was destroyed by an expln in 1953 and not rebuilt (Refs 33 44). Other prepns of lesser importance are by the action of Ag nitrite on iodotrinitro-methane (Ref 3) by the action of 90% nitric acid and 25% oleum on malononitrile, yield 45% (Ref 40) by the action of mixed acid on a number of aromatic nitrocompounds, of which nitrobenzene, dinitrobenzene, and nitronaphtha-lene gave the best yields (Ref 13a) and by the action of nitryl chloride on salts of TNMe. 

Benzoxadiazole 1-oxide (497) and malononitrile gave 3-amino-2-quinox-alinecarbonitrile 1,4-dioxide (498) (EtsN, MeaNCHO, 25°, 90 min 75% EtsN, MeaNCHO, 0°C 10°C, 4 h 15% f EtsN, Me2NCHO, 0°C 20°C, 24 h 75%)7 Symmetrically substituted substrates afforded products like 3-amino-6,7-dunethyl-2-quinoxalinecarbonitrile 1,4-dioxide (499), but unsym-metric substrates usually gave two isomeric products, such as 3-amino-6/7-... 

The Knoevenagel reaction between o-hydroxyaryl aldehydes and ketones and substituted acetonitriles affords high yields of 3-substituted coumarins in aqueous alkaline media <96H(43)1257>, whilst 4-hydroxycoumarins have been elaborated to pyrano [3,2-c]benzopyran-5-ones by reaction with aromatic aldehydes and malononitiile <96P148>. The imine (10) resulting from the complex reaction of o-hydroxyacetophenone with malononitrile undergoes a 1,5-tautomeric shift in solution <96JCS(P1)1067>. 

Unlike such unstable intermediates, the first, rare example of reversible dissociation of a carbon-carbon a bond into a stable carbocation and carbanion was reported for a nitro-dicyano compound (20) prepared from trimethyl- and triphenyl-cyclopropenylium tetrafluoroborate ([4" ]BF4 and [5 JBFJ) with the potassium salt of p-substituted-phenylmalononitrile anions (Arnett et al., 1983 Troughton et al., 1984 Arnett and Molter, 1985). Other ionically dissociative malononitrile derivatives have been prepared from such carbocations as the tropylium [S ] (Arnett and Troughton, 1983) and the tris(p-methoxyphenyl)methylium [93 j (Arnett and Troughton, 1983) ions. 

Czech workers have examined displacements in substituted malononitriles in which the double bond transmits the double effect of the cyanide groups... 

The Stille reaction featuring bromoquinoxaline 84 and vinylstannane delivered vinylquinoxaline 85. In addition, 85 was further manipulated to a 5-aminomethylquinoxaline-2,3-dione 86 as an AMPA receptor antagonist [47]. Pd-catalyzed nucleophilic substitution on the benzene ring has also been described [48]. Thus, transformation of 5,8-diiodoquinoxalines to quinoxaline-5,8-dimalononitriles with sodium malononitrile was promoted by PdCl2,(Ph3P)2. 

Attempts at correlation analysis for X—C—H acidity have been made for a long time. Bowden and colleagues192 examined the problem in 1970 for the pKa values of 9-X-fluorenes and related series. For a limited selection of substituents X in 9-X-fluorenes, a correlation with Taft s a values for X was found89. A more general correlation, albeit with considerable scatter, was found with AM, a parameter based on LCAO-MO calculations. Several dinitro-substituted diphenylmethanes fitted the line quite well and 2-nitrofluorene fitted passably 9-cyanofluorene also fitted quite well, but malononitrile deviated strongly. 

Oxidative cyclization, substituted stil-benes to phenanthrenes, 46, 91 Oximes, reduction with lithium aluminum hydride, 48, 23 Oximinomalononitrile, from nitrosation of malononitrile, 48,1 reduction with aluminum amalgam, 48,2 ... 

Nucleophilic attack of hydroxide ion on the a-carbon atom, with subsequent cleavage of the Ca—Cp bond, has been proposed to account for the kinetics of retro-aldol reaction of substituted benzylidene malononitriles with hydroxide ion in 90%... 

A potential versatile route into a-amino acids and their derivatives is via a combination of (i) nitrile hydratase/amidase-mediated conversion of substituted malo-nonitriles to the corresponding amide/acid followed by (ii) stereospecific Hofmann rearrangement of the amide group to the corresponding amine. Using a series of a,a-disubstituted malononitriles 14, cyanocarboxamides 15 and bis-carboxamides 16, the substrate specificity of the nitrile hydratase and amidase from Rhodococcus rhodochrous IF015564 was initially examined (Scheme 2.7). The amidase hydrolyzed the diamide 16 to produce (R)-17 with 95% conversion and 98%e.e. Amide 17 was then chemically converted to a precursor of (S)-a-methyldopa. It was found... 

Addition of indoles 171 to a mixture of salycylic aldehyde 157 and malononitrile 27a affords 4-(3-indolyl)-substituted 2-amino-4H-chromenes 172 (07TL6785), probably the result of an addition of indole to intermediate iminochromene 159 (Scheme 63). 

A three-component reaction of thienopyridinone 211, substituted piperidin-4-ones 246, and malononitrile 27a leads to spiro-conjugated polycycles 251 (03RCB1380) (Scheme 96). 

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