NMR Evidence of Tautomerism for Some 1-Alkyl-3-Aryltriazenes

Abstract

For several 1,3-diaryl- and 1-alkyl-3-aryltriazenes, infraa red evidence of tautomerism I?II has been given;^1,2 in their ir spectra, in fact, these compounds generally show two separate N-H stretching bands. The relative intensities of these bands are influenced by the substituents,^1,2 It was recognized, how ever, that the tautomeric equilibrium constants K_T cannot be determined with accuracy by ir bands intensity measurements as the molar extinction coefficients of forms I and II are not known.¹     

Synthesis and Characterization of 2,2-Biimidazole Complexes of Oxocations of Molybdenum (VI,V) and Uranium(VI)

Abstract

2,2′-Biimidazole complexes of MoO₂ ⁺², MoO₂ ⁺ and UO₂ ⁺² have been prepared and characterized by elemental analysis, conductance; and ¹H NMR, IR and electronic spectra. Two types of complexes have been identified. Those obtained from slightly acidic solutions have the formulae MoO₂ (H₂bim)Cl₂.2H₂O 1, UO₂(H₂bim) (Ac)₂ 2 and UO₂(H₂bim)Cl₂.2H₂O 3; whereas those from alkaline solutions have the formulae Mo₂O₄(Hbim)₂.2H₂O 4, and MO₂(Hbim)₂ (M = Mo(VI) 5, U(VI) 6). The infrared spectra of these complexes show characteristic biimidazole frequencies in the 3200–2500, 1550–1000 and 750 cm^?1 regions as well as metal oxygen double bonds in the 900 cm^?1 region. The stoichiometries of the acetate complex has been confirmed from ¹H NMR signal ratios of bimidazole to acetate protons at 7.3 and 2.3 ppm, respectively. The electronic spectrum of molybdenum(V) complex showed d-d transition band at ?13,500 cm^?1 in accord with that reported for copper (d⁹) imidazole complexes; as well as peaks due to charge transfer bands at 30,000–26,000 cm^?1 Peaks assignable to BIM → U(VI) were located at ?26,600 cm^?1. The most probable structures of these complexes have been suggested.     

Conformational Studies of α-Substituted Carbonyl Compounds by I. R. Spectroscopy. II. α-Heterosubstituted N,N-Diethylacetamides

Abstract

The α-heterosubstituted N, N?diethylacetamides(1–8) cis/gauche conformations population ratio have been estimated through the analysis of the carbonyl group stretching vibration in the carbon tetrachloride and in chloroform. The substituent steric properties determine the cis/gauche ratio which decreases as the substituent size increases. For most of the studied amides, the gauche rotamer carbonyl band exhibits larger shifts to lower frequencies than in the corresponding α-heterosubstituted propanones¹, but for the α-chloro-(4) and for the α-bromo-N,N?diethylacetamide(5) a reverse trend is observed. This behavior can be related to changes in the πC=O C—X Dihedral angle, an hyperconjugative effect being sugges ted to explain the frequency shifts of the gauche rotamers.     

Studies of Hindered Rotation and Magnetic Anisotropy by 1H, 13C and 19F NMR. The Diels-Alder Adduct of N- Pentafluorophenylmaleimide and Phencyclone: A Model for Drugs.

The potent Diels-Alder diene, phencyclone, 1, reacts with N-pentafluorophenylmaleimide, 2, to form an adduct, 3, characterized by ¹H, ¹³C, and ¹⁹F NMR at 300, 75 and 282 MHz, respectively. The one-dimensional (1D) and two-dimensional (2D) ¹H and ¹³C NMR spectra of 3 at ambient temperatures imply a slow exchange limit (SEL) regime with respect to rotation of the unsubstituted bridgehead phenyl groups about severely hindered C(sp²)-C(sp³) bonds. Major non-bonded interactions are expected between the ortho protons of the C₆H₅ groups and H-1, 8 of the phenanthrenoid moiety of 3. ¹⁹F 1D and 2D (COSY) NMR spectra show that the SEL regime also obtains for rotation about the N-C₆F₅ bond of 3, with five separate fluorine signals seen, consistent with a preferred conformation in which the C₆F₅ may lie roughly perpendicular to the plane of the pyrrolidinedione moiety, and may be in the mirror symmetry plane of 3. The results are considered relevant to hindered aryl rotations in numerous Pharmaceuticals. Selected spectral data for 2 and precursors are also presented.     

NMR Studies of Drugs. Applications of Achiral and Chiral Lanthanide Shift Reagents to the Analgesic,Famprofazone: “Anomalous Shifts”

The 200 MHz ¹H NMR spectra of the analgesic, famprofazone, 1, have been studied in CDCl₃ solution at ambient temperatures with the achiral lanthanide shift reagent (LSR) tris (6, 6, 7, 7, 8, 8, 8-heptaf luoro-2, 2-dimethyl-3, 5-octanedionato) europium (III), Eu(FOD)₃, 2, for spectral simplification, and with the chiral LSR, tris [3-(heptafluoropropylhydroxymethylene) - (+) camphorato] europium (III), Eu (HFC)₃, 3. Lanthanide induced shift (LIS) magnitudes suggested predominant LSR binding at the carbonyl oxygen. Substantial enantiomeric shift differences were observed for several nuclei of 1 with added 3 which could permit direct determinations of enantiomeric excess.     

Normal Coordinate Analysis of M-CH3-Moieties in Transition Metal Complexes and Comparison to Results Obtained for Methylhalides

In order to examine the influence of the transition metal on the metal-methyl fragment M-CH₃ polarized Raman spectra of the complexes Cp(CO)₂Fe-CH₃ (I), Cp(CO)₃W-CH₃ (2), Cp(CO)₂(PMe₃)W-CH₃ (3) and O₃Re-CH₃ have been recorded. The spectral data were interpreted on the basis of a normal coordinate analysis of the M-CH₃-core and the derived force constants and potential energy distributions were compared to results obtained for analogous halogen derivatives in the series X-CH₃ [X = Br (5), I (6)].     

1H NMR Spectral Simplification with Achiral and Chiral Lanthanide Shift Reagents. Meparfynol, 3-Methyl-L-Pentyn-3-Ol. Apparent Anomalous Results with a Binuclear Shift Reagent

The 60 MHz ¹H NMR spectra of racemic meparfynol, 1, have been studied in CDCl₃ solution at 28° with the achiral shift reagentt tris(6,6,7,7,8,8,8-hepta-fluoro-2,2-dimethyl-3,5-octanedionato) europium (III), 2, and the chiral reagent, tris[3-(heptafluoropropyl-hydroxymethylene)-d-camphorat01 europium(III), 3. With 3, observable enantiomeric shift differences for the 3-methyl should make possible direct optical purity determinations. Additions of increments of (6,6,7,7,8,8,8-heptafluoro-2,2-dimenthyl-3,5-octane-dionato)silver(I) 4, to a CDCl₃ solution of 1 and 3 resulted in changes in Δδ magnitudes and in some line intensities that are discussed in terms of interactions with the ethynyl and hydroxyl groups.     

NMR Studies of Drugs: Antipyrine and Analogs. I. Use of Achiral and Chiral Lanthanide Shift Reagents to Examine Hindered Rotation.

The 200 MHz ¹H NMR spectra of the analgesic, antipyrine, 1, have been studied in CDC1₃ solution at ambient temperatures with the achiral lanthanide shift reagent (LSR) tris (6, 6, 7, 7, 8, 8, 8-heptafluoro-2, 2-dimethyl-3, 5-octanedionato) europium (III), Eu(FOD)₃, 2, and with the chiral LSR, tris[3-(heptafluoropropylhydroxymethylene)-(+)-camphorato]europium(III), Eu(HFC)₃, 3., Lanthanide-induced shift (LIS) magnitudes and broadening of selected signals are consistent with predominant LSR binding at the carbonyl oxygen with either 2 or 3. Of the different possible conformational regimes for the N-phenyl group of 1, our results appear to rule out a slow exchange limit (SEL) system with the N-phenyl coplanar with the heterocyclic ring. Perpendicular rings in an SEL regime can not be ruled out. A rapidly-rotating N-phenyl (fast exchange limit, FEL system) would also be consistent with observed results. Accurate chemical shifts for the aryl protons (overlapped in the 200 MHz spectrum of unshifted 1) are determined from spectra with added LSR by extrapolation to zero molar ratios of [LSR]:[1]. Relative slopes in the plots of chemical shift versus [LSR]:[1] molar ratios are calculated for each proton signal of 1.     

NMR Studies of Agricultural Compounds. Applications of Achiral and Chiral Lanthanide Shift Reagents to the Herbicide,Diclofop Methyl

The 60 MHz H NMR spectra for the herbicide, diclofop methyl, 1, have been studied in CDCl₃ solution at 28±1° with the added achiral lanthanide shift reagent (LSR) tris (6,6,7,7,8,8,8-heptafluoro-2,2-dimethyl-3,5-octanedionato) europium(III), Eu (FOD)₃, 2, and with the chiral LSRs, tris[3-(heptafluoropropylhydroxymethylene)-(+)-camphorato]europium(III)₃, Eu(HFC)₃, 3, and tris[3-(trifluoromethylhydroxymethylene)-(+)-camphorato]europium(III), Eu(FACAM)₃, 4. Both 2 and 3 produced substantial lanthanide-induced shifts (LIS) consistent with predominant LSR binding at the ester carbonyl. Much smaller LIS magnitudes were observed with 4. Modest enantiomeric shift differences (ΔΔδ) were elicited with 3 for the OCH₃ and the CCH₃ resonances of 1. The former signal appears to offer greatest potential for the direct determination of enantiomeric excess of samples of 1, with 3:1 molar ratios ca. 0.3–0.4 resulting in valley heights as low as 33% of the average peak heights of the OCH₃ signals of the two enantiomers.     

The stretching–bending bands of 13C2HD

The infrared spectrum of ¹³C₂HD has been investigated using high-resolution Fourier transform infrared spectroscopy. A large number of ro-vibrational transitions in the spectral region 1000–6600?cm^?1 have been recorded and assigned. This paper is focused only on the vibrational bands involving pure stretching, stretching–bending or stretching–stretching modes. In total, 78 bands have been identified and assigned, 29 related to υ₁(CH stretch), 27 to υ₂(CC stretch), and 22 to υ₃(CD stretch). The data pertaining to each stretching mode have been fitted simultaneously in order to obtain accurate sets of rotational and vibrational parameters for the excited states.     

Absolute infrared intensities in some metal carbonyls and the charge flux model of the dipole derivatives

The absolute intensities of the four infrared active modes of certain metal carbonyls, M(CO)₄ or M(CO)₆, are analyzed from the point of view of the equilibrium charge-charge flux model of the dipole derivatives. It is shown that the charges obtained from the bending modes, assuming negligible flux for these modes, are apparently identical with those reported by previous authors. However, such charges are much too sensitive to the choice of L matrix (which transforms the normal coordinates to symmetry coordinates) to permit any conclusions. The carbonyl stretching mode implies values of the dipole derivative three- to sixfold greater than in gaseous CO. It seems most reasonable to attribute most of this enhancement to charge flux between the metal and carbon atoms.     

NMR Studies of Agricultural Products. Applications of Achiral and Chiral Lanthanide Shift Reagents to the Fungicide,Triadimefon.

Abstract

The 60 MHz ¹H NMR spectra of the systemic agricultural fungicide, triadimefon, 1, have been studied in CDCl₃ at 28±1° (as the racemic free base) with the added achiral lanthanide shift reagent (LSR), tris(6, 6, 7, 7, 8, 8, 8-heptafluoro-2, 2-dimethyl-3, 5-octanedionato) europium(III), Eu(FOD)₃, 2, for spectral simplification, and with the chiral LSR, tris [3-(heptafluoropropylhydroxymethylene)-(+) -camphorato)europium(III), Eu(HFC)₃, 3, to induce enantiomeric shift differences (ΔΔδ) for several nuclei. Significant ΔΔδ values were seen for the two protons of the heterocyclic ring, the OCH methine, and aryl H-2′, 6′ of the chlorophenoxy ring. For each of these nuclei exhibiting ΔΔδ with added 3, the ΔΔδ magnitudes reached maximum values with 3: 1 molar ratios ca. 0. 18–0. 29, and decreased with higher levels of 3. To confirm analytical utility of 3 for % e. e. determinations of 1, a nonracemic (“spiked”) sample of racemic 1, with added R-(?) triadimefon, was examined with 3. At low 3: 1 ratios, both triazole H-3 and H-5, as well as the OCH and aryl H-2′, 6′ protons of (?)-1 showed a downfield sense of magnetic nonequivalence with (+) -3. With 3: 1 ratios ca. 0. 8, triazole proton H-3 reversed its sense of magnetic noneguivalence. The H-3 and H-5 signals were useful for % e. e determinations at this higher 3: 1 ratio.     

A Ketene Intermediate in 3-Cyclopentenone Photolysis : Matrix-Isolation and Gas Phase Experiments

Abstract

Photolysis experiments are performed at λ  230 nm on argon matrix-isolated and on gas phase 3-cyclopentenone ( 1 ); in both cases, a ketene intermediate (KE) is detected (FT-IR spectra : 2121–2126 cm^?1 in argon matrix; 2066–2210 cm^?1 in gas phase). 1,3-butadiene ( 2 ) and carbon monoxide are the reaction products. Two first-order consecutive photochemical processes occur 1 ^k1 > KE ^k2 > 2 + CO with k₁ = 1.7 10–2 s^?1 and k₂ = 2.4 10–2 s^?1.     

NMR Studies of Drugs. Applications of Lanthanide Shift Reagents to Afloqualone,an Axially Chiral Quinazolinone.

The skeletal muscle relaxant, aflogualone, 1, has been studied by ¹H NMR in CDC1₃ at 60 and 300 MHz in the presence of added chiral [Eu(HFC)₃] or achiral [Eu(FOD)₃] lanthanide shift reagents (LSR). With Eu(HFC)₃, significant enantiomeric shift differences, ΔΔδ, can be induced for most of the nuclei of 1, with near-baseline resolution obtainable for the H-5 signals of each enantiomer, indicating excellent analytical potential for direct determination of enantiomeric excess of samples of 1. Observation of ΔΔδ directly confirms hindered rotation about the bond between N (3) and the 2-methylphenyl group, i.e., the N (sp²) - C(sp²) bond, leading to axial chirality in 1 with slow rotation on the NMR timescale. Assignments are supported by 2D COSY spectra at 300 MHz. Relative lanthanide-induced shift magnitudes for the protons of 1 are compared.     

1 H NMR Spectral Simplification with Achiral and Chiral Lanthanide Shift Reagents. Tocainide. Method for Direct Optical Purity Determination and Observation of an “Anomalous” Shift

The 60 MHz ¹H NMR spectra of racemic tocainide, 1, have been studied in CDCL₃ solution at 28° with the achiral shift reagent, tris(6,6,7,7,8,8,8-heptafluor-2,2-dimethyl-3,5-octanedionato)europiumIII), 2, and the chiral reagent, tris[3- (heptafluoropropylhydroxymethylene)-d-canphorato]- europium(III), 3. Substantial lanthanide induced shifts, Δδ, were served with both 2 and 3, A significant “anomalous” upfield shift for the CH signal of 1 was seen with added 2. The chiral reagent 3 led to appreciable emtiomeric shift differences for the CH₃CH and amide NH signals. The potential for direct optical purity determinations of 1 using 3 was demonstrated for a non-racemic (“spiked”) sample of 1, based on the CH₃ resonance. The sense of magnetic non-equivalence for these resonances was also determined.     

NMR Studies of Drugs. 5-Methyl-5-phenylhydantoin. Applications of Lanthanide Shift Reagents in Polar Solvents to a Non-Chelating Substrate

The 200.1 MHz ¹H NMR spectra of 5-methyl-5-phenylhydantoin, 1, have been studied in CD₃CN solution at ambient temperatures with the achiral shift reagent, tris (6, 6, 7, 7, 8, 8, 8-heptafluoro-2,2-dimethyl-3,5-octanedionato) europium (III), 2, and the chiral reagent, tris[3-(heptafluoropropylhydroxymethylene)-(+)-camphorato] europium (III), 3. Although 1 cannot chelate the LSRs, use of sufficiently high LSR:1 molar ratios served to compensate for competitive binding of LSR by the polar solvent, and permitted substantial lanthanide-induced shifts to be observed with 2 or 3. With 3, significant enantiomeric shift differences were produced for the ortho aryl protons and for the CH₃ signals. The ortho proton signal appears to offer excellent potential for direct determination of enantiomeric excess of 1. These results demonstrate the utility of LSRs 2 or 3 even in a polar solvent with a nonchelating substrate.     

An Example of Crossed Ship Conformation: The Tetrahydropyran Ring in Trioxa-bis-Spirocital Series

Abstract

The three ³J_HH coupling constants observed in the ¹H NMR spectra (500 MHz) of trioxa-bis-spirocital 1 and 2 serve to calculate the dihedral angles Ψ(8,9) and Ψ(9,10) of these two molecules. The values obtained, 54° for 1, 25° for 2, reflect the change in conformation: chair → crossed ship when passing from 1 to 2. This change in conformation corresponds in ¹³C NMR to strong shielding (?3.6 to ?5.5 ppm) of the lines of the carbons C₈, C₉ and C_10.     

NMR Studies of Hindered Rotations in Drugs. Use of Achiral and Chiral Lanthanide Shift Reagents with Mecloqualone,an Axially Chiral Drug of Abuse. Rigorous Definition of Spin Systems.

The axially chiral sedative/hypnotic drug of abuse, mecloqualone, 1, has been studied in CDC1₃ by ¹H NMR at 60 and 300 MHz with the added achiral lanthanide shift reagent (LSR), tris(6,6,7,7,8,8,8-heptafluoro-2,2-dimethyl-3,5- octanedionato)europium(III), 2, and the chiral LSR, tris[3-(heptafluoropropylhydroxymethylene)-(+)-camphorato] europium-(III), 3. Rigorous distinctions between the two (CH)₄ spin systems of 1 with added 2 or 3 were achieved by two-dimensional homonuclear chemical shift correlation spectroscopy, COSY. Substantial up field (“anomalous”) shifts were observed for several nuclei of 1 with each LSR. Use of the chiral 3 elicited enantiomeric shift differences with baseline separations for several nuclei that should permit direct determinations of enantiomeric excess. COSY spectra allow determination of the relative sense of magnetic nonequivalence of selected nuclei of 1 with 3.     

Spectra-Structure Correlations in 2,2′-Bipyridine Mercury(II) Saccharinate: Comparison With Mercury(II) Saccharinate And Chloromercury(II) Saccharinate∗

Abstract

The infrared spectrum of 1:1 complex of mercury(II) saccharinate with 2,2′-bipyridine, [Hg(C₇H₄NO₃S)₂(C₁₀H₈N₂)], was studied in the CO and SO₂stretching regions. The appearance of the spectrum in the region of the carbonyl stretching modes was correlated with the number of non-equivalent CO groups in the structure. The spectral and structural characteristics of the CO groups in the title compound were compared with the corresponding ones in the mercury(II) saccharinate and chloromercury(II) saccharinate. It was found that the frequency of the CO stretchings in the spectrum of Hg(bpy) (sac)₂ is significantly lower (1630 and 1615 cm^?1) than the frequency of the corresponding modes in the spectra of covalently bonded mercury(II) saccharinate (1705 and 1680 cm^?1) and chloromercury saccharinate (1694 cm^?1). An attempt was also made to assign the bands which are mainly due to the symmetric and the antisymmetric SO₂ stretching vibrations.

     

NMR Studies of Drugs. Applications of Achiral and Chiral Lanthanide Shift Reagents to a 5-Substituted-4-thiazolidinone

The 60 MHz ¹H NMR spectra of racemic 5-[[3,5-bis(1,1-dimethylethyl)-4-hydroxyphenyl]methyl]-4-thiazolidinone, 1, have been studied in CDCl₃ solution at 28° with the achiral lanthanide shift reagent (LSR), tris (6,6,7,7,8,8,8-heptafluoro-2,2-dimethyl-3,5-octanedionato)europium (III), 2, and the chiral LSRs, tris[3-(heptafluoropropylhydroxymethylene)- (+)-camphoratojeuropium(III), 3, and tris[3-(trifluoromethylhydroxymethylene-(+) -camphorato]europium (III), 4, Significant enantiomeric shift differences were observed in the presence of added 3, for the aryl protons of 1 that should permit direct determination of enantiomeric excess. Relative magnitudes of lanthanide-induced shift for the different nuclei of 1 with the three LSRs are compared and discussed in terms of preferred LSR binding sites. A favored conformation of 1 with respect to rotation about the C(5)-CH₂ bond is suggested.