Piperidine and derivs

STABILITY, AROMATICITY AND CONFORMATION 2.04.5.1 Conformation and Stability in Piperidine and Derivatives... 

With piperidine and derivatives [Fe(NO)2(C4HioN,)]Br ) room 2.0 NMR in thf solution 68H22... 

With piperidine and derivatives [Ni(pip)3(H20)3](C104)2 293 3.0 Gouy octahedral coordination suggested 71S10... 

With alicyclic heteroring compounds With piperidine and derivatives CuCU 3-C5H4N C5H9NH 1 ) 291 1.85 Gouy polymeric structure 72G26... 

With alicyclic heteroring compounds With piperidine and derivatives With piperidine... 

It is now applied more widely to include malonic acid derivatives, such as diethyl monoethyl-malonate, ethyl cyanacetate, etc. Various amines may be used as catalysts, and usually the most effective is piperidine (hexahydro-pyridine) a mixture of piperidine and pyridine, or pyridine alone, is also often used. 

Ethylamines. Mono-, di-, and triethylamines, produced by catalytic reaction of ethanol with ammonia (330), are a significant outlet for ethanol. The vapor-phase continuous process takes place at 1.38 MPa (13.6 atm) and 150—220°C over a nickel catalyst supported on alumina, siUca, or sihca—alumina. In this reductive amination under a hydrogen atmosphere, the ratio of the mono-, di-, and triethylamine product can be controlled by recycling the unwanted products. Other catalysts used include phosphoric acid and derivatives, copper and iron chlorides, sulfates, and oxides in the presence of acids or alkaline salts (331). Piperidine can be ethylated with ethanol in the presence of Raney nickel catalyst at 200°C and 10.3 MPa (102 atm), to give W-ethylpiperidine [766-09-6] (332). 

Cyclic amines such as piperidine and its derivatives show substantial differences in the properties of the axial C-2 and C-6 versus the equatorial C-2 and C-6 C—H bonds. 

Schaeffer and Jain (19) have also reported the synthesis of optically active dehydrocycloheximide (24) by using optically active piperidine enamine derived from (+)-/ra 5-2,4-dimethylcyclohexanone. 

Recently Stamhuis et al. (33) have determined the base strengths of morpholine, piperidine, and pyrrolidine enamines of isobutyraldehyde in aqueous solutions by kinetic, potentiometric, and spectroscopic methods at 25° and found that these enamines are 200-1000 times weaker bases than the secondary amines from which they are formed and 30-200 times less basic than the corresponding saturated tertiary enamines. The baseweakening effect has been attributed to the electron-withdrawing inductive effect of the double bond and the overlap of the electron pair on the nitrogen atom with the tt electrons of the double bond. It was pointed out that the kinetic protonation in the hydrolysis of these enamines occurs at the nitrogen atom, whereas the protonation under thermodynamic control takes place at the -carbon atom, which is, however, dependent upon the pH of the solution (84,85). The measurement of base strengths of enamines in chloroform solution show that they are 10-30 times weaker bases than the secondary amines from which they are derived (4,86). 

The reactions of enamines with aldehydes (329,350) are noteworthy in that they provide a route to the monobenzylidene derivatives of five- to seven-membered eyclic ketones as well as a method for the formation of other a, 9-unsaturated carbonyl compounds, in fair to good yields. The condensation of benzaldehyde with enamines is also involved in the formation of 3,5-dibenzylpyridine from piperidine and benzaldehyde (191-193). 

The reactions of dichlorocarbene with morpholine and piperidine enamines derived from cyclopentanone and cyclohexanone have been reported to lead to ring expanded and a-chloromethylene ketone products (355,356). Similarly a-chloro-a, -unsaturated aldehydes were obtained from aldehyde derived enamines (357). Synthesis of aminocyclopropanes (353,359) could be realized by the addition of diphenyldiazomethane (360) and the methylene iodide-zinc reagent to enamines (367). 

N-Macroheterocycles and derivatives of pyrrolidine and piperidine as inhibitors of immunophillin enzymes 98JMC5119. 

Oxidative cyclization of 1 -[(2 -aminocarbonyl)phenyl]piperidine and its 4 -substituted derivatives with Hg(OAc)2-EDTA reagent afforded 1,2,3,4-tet-rahydro-6//-pyrido[2,l-Z)]quinazolin-6-one and its 3-substituted derivatives in 36-82% yields (99ZN(B)1577). Similarly, ( )-2-(piperidin-2-yl)benzal-doximes gave 2,3,4,4u-tetrahydro-l//-pyrido[l,2-u]quinazolin-5-oxide and... 

Perhydro derivatives of pyrido[l,2-7)][l,2]oxazines are frequently applied in the total synthesis of various alkaloids to control the stereochemistry, and pyrido[l,2-c][l,3]oxazines and [l,3]oxazino[3,4-u]quinolines were also used in the stereoselective syntheses of different alkaloids. Perhydropyrido[l,2-c][l,3]oxazines and their benzologs are formed form 2-(2-hydroxyethyl) piperidines and from their benzologs to justify the stereochemistry of 2-(2-hydroxyethyl) derivatives. Different optically active pipecolic acids can be prepared via 4-phenylperhydropyrido[2,l-c][l,4]oxazin-l-ones. 

Many other catalysts and ligands have been examined for the enantioselective reduction of a-acetamidoacrylates and related substrates. Phosphoramidites derived from BINOL and the cyclic amines piperidine and morpholine give excellent results.35... 

Glutarimides may be regarded as oxidized piperidines, and many drugs containing this moiety are sedatives and anticonvulsants. A spiro derivative, alonimid (105) is such a sedative-hypnotic agent. It can be prepared by K t-butoxide catalyzed biscyano-ethylation of phenylacetonitrile, leading to 101. Alkaline hydrolysis produces tricarboxylic acid 102 which is smoothly Converted to the glutaric acid anhydride (103) with acetic anhydride. Friedel-Crafts... 

Khazanov, E. Barenholz, Y., Gibson, D., Najraeh, Y. Novel apoptosis-including trans-platinum piperidine and piperazine derivatives Synthesis and biological characterization. J. Med. Chem. 2002, 45, 5189-5195. ... 

The final step to 46 is cyclocondensation of 3,7-diazabicyclo[3.3.1]nonane (51), bispidine70, with formaldehyde. There are two different approaches to 51 (i) a pyridine is converted to a piperidine and (ii) the double Mannich or Robinson-Schopf condensation of ketone 52 with formaldehyde and primary amines affords 1,5-disubstituted 3,7-dazabicyclo[3.3.1]nonan-9-one (53), bispidone, from which 5,7-disubstituted l,3-diazaadamantan-6-one (61) is derived. Route (i) is adopted by Galinovsky and Langer,71 Stetter and... 

Compound 642, obtained by condensation of glyoxal with benzotriazole and morpholine undergoes interesting [2+3] cyclocondensation with 2-aminopyridine to give imidazo[l,2- ]pyridine 643 (Equation 15) <2003JOC4935>. Similar derivatives of piperidine and pyrrolidine are also described. 2-Amino- and 6-aminopyrimidines react similarly to give imidazo[l,2- ]- and imidazoll - pyrimidines, respectively. 

Treated with ZnBr2 followed by enamines, phenyl thioethers 829 derived from aryl aldehydes are converted to (l-(phenylthio)alkyl ketones or aldehydes 830 in moderate to good yields (Equation 19). Enamines used in these syntheses are (1) morpholine enamine derived from diethyl ketone, (2) diethylamine enamine of propiophenone, (3) piperidine enamine derived from isovaleraldehyde, and (4) pyrrolidine enamine of cyclohexanone <2000H(53)331>. 

Rearangement of furoxans leads to the formation of new heterocyclic systems derivatives of triazoles, diazoles, isoxazoles, and pyrimidinones. For example, on the basis of the experimental results using labeled compound 52-15N , the formation of 8-phenyltheophylline 53, the 1,3-dimethylalloxazines (54 n = 0, 1), and l,3,7,9-tetramethyl-l//,9//-pyrimido[5,4-g]-pteridine-2,4,6,8-tetraone 55 in the thermal reaction of the iV-oxide 52 with benzylamine, aniline, or piperidine and the generation of NO or NO-related species in the reaction with iV-acetylcysteamine were reasonably explained by... 

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