Synthesis and Transformations of 4-Phosphorylated 2-Alkyl(aryl)-5-hydrazinooxazoles

Treatment of 1-phosphorylated 2,2-dichloroethenylcarboxamides with excess hydrazine hydrate gives in high yields phosphorylated derivatives of 2-alkyl(aryl)-5-hydrazinooxazoles containing the P(O)(OCH₃)₂, P(O)(OC₂H₅)₂, and P⁺(C₆H₅)₃ClO₄ ^- groups in the 4-position of the ring. The presence of the hydrazine group in these oxazole derivatives was confirmed not only by the spectral data, but also by the reactions with p-toluic aldehyde, p-toluic chloride, and phenyl isothiocyanate.     

分子间氢键对苯并菲柱状介晶性的影响:量子化学ONIOM(MO/MM)研究

我们最近的实验显示: 对于分子中含有酰胺基的苯并菲液晶化合物C₁₈H₆(OC₅H₁₁)₃(OCH₂CONHC₄H₉)₃, 对称化合物有比反对称异构体更高的清亮点和更有序的六方柱状介晶相, 且与具有同样软链长度的分子中不含酰胺基的化合物C₁₈H₆(OC₅H₁₁)₃(OCH₂COOC₄H₉)₃相比较, 有更高的清亮点和更丰富的柱状介晶相. 本文通过量子化学ONIOM (B3LYP/6-31G(d,p):UFF)计算, 说明对于带酰胺基的分子, 对称分子比反对称分子有较大的稳定化能和较高的转动势垒. 对于对称性分子, 带酰胺基的分子比带酯基的分子有较大的稳定化能和较高的转动势垒. 这说明由酰胺基形成的分子间氢键起了稳定液晶相和锚定六方柱状相的作用, 可以解释带酰胺基的分子和对称性分子有较高的清亮点和更有序的六方柱状介晶相. 如果加长酰胺基的软链, 则可使氢键锚定的扭转角减少, 这样有利于提高电荷传输速率.     

Synthesis and characterization of manganese and rhenium tricarbonyl complexes with (O,O,O)-donor ligands

Complexes of the type [(C₅H₅)Co{P(O)R₂}₃]^?, R = OCH₃, OC₂H₅, react as tridentate oxygen ligands L^? with [MBr(CO)₅], M = Mn, Re, in hexane or tetrahydrofuran to give the tricarbonyl derivatives [LM(CO)₃]. The slightly volatile yellow crystalline compounds have been characterized by elemental analysis, ¹H NMR, IR and mass spectra. The low CO stretching frequencies indicate that the ligands L^? are good π-donor ligands.     

Unterscheidung enantiotoper/diastereotoper Protonen und regioselektive Spinentkopplung in metallorganischen Komplexen mit Hilfe von Shiftreagenzien

Dimethylphosphonate HP(O)(OCH₃)₂ and the dimethylphosphonate complexes [(C₅H₅)MX{P(O) (OCH₃)₂}{P(OCH₃)₃}] (M=Co, Rh; X=I, CH₃), [(C₅H₅)Co{P(O)(OCH₃)₂}₂ {P(OH)(OCH₃)₂}] and [(C₅H₅)Ni{P(O)(OCH₃)₂}{P(OCH₃)₃}] have been studied by ¹H n.m.r. spectroscopy. The chiral shift reagent Eu(tfc)₃ has been used to resolve the spectra of the enantiomeric mixtures of [(C₅H₅)MX {P(O)(OCH₃)₂}{P(OCH₃)₃}]. The substituent X in [(C₅H₅)MX{P(O)(OCH₃)₂}{P(OCH₃)₃}] has a strong influence on the anischrony of the diastereotopic phosphonate methyls in the presence of Eu(tfc)₃. The same shift reagent also resolves the enantiotopic protons in HP(O)(OCH₃)₂ but not in [(C₅H₅)Ni {P(O)(OCH₃)₂}{P(OCH₃)₃}]. The addition of Eu(tfc)₃ to [(C₅H₅)Ni{P(O)(OCH₃)₂}{P(OCH₃)₃}] eliminates the ³J(POCH) coupling in the coordinated dimethylphosphonate. The cobalt complex [(C₅H₅)Co{P(O)(OCH₃)₂}₂{P(OH)(OCH₃)₂}] reacts as a chelating ligand with Eu(tfc)₃ to give one tfcH per Eu(tfc)₃.     

Reaction of metal-Carbene complexes with vinyllithium reagents

The reaction of vinyllithium with (CO)₅CrC(OCH₃)C₆H₅ (Ic) at?78° followed by the treatment with HCl at ?78° gave 43% (Z)-1-methoxy-1-phenylpropene (IIIa) and 21% 1,4-dimethoxy-1,4-diphenyl-1,3-butadiene (IVa) and no trace of a vinylphenylcarbene complex or its expected decomposition products. IIIa and IVa are proposed to arise from electrophilic attack at the carbon-carbon double bond of a σ-allychromium intermediate. The reaction of phenyllithium with (CO)₅CrC(OCH₃)CH=CHC₆H₅ (V) gave 9% (CO)₅CrC(OCH₃)CH₂CH- (C₆H₅)₂(VI) and 17% (E)-1-methoxy-1,3-diphenylpropene (VII). Reaction of V with lithium diphenylcuprate gave 30% of the conjugate addition product VI.     

Studies on the synthesis,spectra and structure of isomerized products of isopentadiene(dicarbonyl)-[ethoxy(aryl)carbene]iron complexes and the crystal structure of tetracarbonyl[ethoxy-(pentachlorophenyl)carbene]iron

Reaction of π-isopentadienetricarbonyliron (1) with aryl lithium ArLi (Ar?phenyl, p-tolyl, p-methoxyphenyl, p-trifluoromethylphenyl) in ether at low temperature, and subsequent alkylation of the acylmetallate formed with triethyloxonium tetrafluoroborate[(C₂H₅)₃OBF₄] in aqueous solution at 0°C, gave orange-red crystalline complexes (2-5), the isomerized products of isopentadiene (dicarbonyl) [ethoxy(aryl)carbene] iron with composition of C₅H₈ (CO)₂FeC(OC₂H₅)Ar When LiC₆Cl₅ was used as nucleophilic reagent in the reaction, on alkylation of the afforded acylmetallate intermediate under some reaction conditions, complex (CO)₄FeC(OC₂H₅)C₆Cl₅ (6) was obtained. The molecular structure of complexes 2 and 6 were determined by means of single crystal X-ray diffraction measurements. IR, ¹H NMR and mass spectra of these complexes were investigated.     

Massenspektroskopische und 1H-NMR-Untersuchungen an viergliedrigen Ringverbindungen mit Arsen,Stickstoff und Sauerstoff im Ring

¹H-NMR and Mass Spectra of Compounds with Four-membered Rings Consisting of Arsenic, Nitrogen, and Oxygen The ¹H-NMR and mass spectra of As₂O(OCH₃)₆NC₃H₇ and As₂O(OCH₃)₆NC₄H₉ are reported and fragmentation processes, induced by electron impact, are studied. Both compounds form four-membered rings consisting of nitrogen, oxygen, and two arsenic atoms. As₂O(OC₂H₅)₆NC₃H₇ and As₂O(OC₂H₅)₆NC₄H₉ could be proved by mass spectrometry; but they could not be prepared in the pure state.     

Effect of Inorganic Components on Thermal Stability of Methylsiloxane-Based Inorganic/Orgnaic Hybrids

The thermal decomposition behavior of methylsiloxane-based inorganic/organic hybrids containing an inorganic component derived from metal alkoxides such as Si(OCH₃)₄, Al(O^sC₄H₉)₃, Ti(OⁱC₃H₇)₄ and Nb(OC₂H₅)₅ was investigated by means of thermogravimetric and differential thermal analysis (TG-DTA), Fourier transform infrared (FT-IR) spectroscopy and nuclear magnetic resonance (NMR) spectroscopy. The decomposition temperature of methyl groups in methylsiloxane-based inorganic/organic hybrids containing an inorganic component derived from metal alkoxides was higher than that in the methylsiloxane-based inorganic/organic hybrid prepared from only CH₃Si(OC₂H₅)₃. In particular, when incorporating Nb and Ti inorganic components, methyl groups in methylsiloxane-based inorganic/organic hybrids decomposed at about 100 and 200^∘C higher temperatures, respectively, than those in the methylsiloxane-based inorganic/organic hybrid prepared from only CH₃Si(OC₂H₅)₃. The incorporation of an inorganic component other than siloxane into methylsiloxane-based inorganic/organic hybrids was found to thermally stabilize the methyl groups of methylsiloxane networks.     

Hypercoordinated compounds of gold(I)

Mono- and binuclear gold(I) derivatives ofortho-substituted diphenyl ether, C₆H₅OC₆H₄AuPPh₃ and O(C₆H₄)₂(AuPPh₃)₂, were prepared by the reaction of the 2,2'-dilithium derivative of diphenyl ether with ClAuPPh₃. X-Ray structural study has shown that these compounds contain secondary intramolecular bonds between the gold and oxygen atoms. The interaction of C₆H₅OC₆H₄AuPPh₃ with (AuPPh₃)BF₄ affords the [C₆H₅OC₆H₄(AuPPh₃)₂]BF₄ cationic complex. The latter reacts with PPh₃ to give the starting C₆H₅OC₆H₄AuPPh₃ complex.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 4, pp. 729–736, April, 1994.The authors wish to thank A. L. Blyumenfel'd for recording³¹P NMR spectra, D. V. Zagorevskii and K. V. Kazakov who obtained mass spectra, and Yu.L. Slovokhotov who carried out the EXSAFS study.The study described in the present paper was partly supported by the International Scientific Fund, grant N Ch. 002479.     

Isocyanide addition to MN2(CO)5(Ph2PCH2PPh2)2 and the formation of a four-electron doubly-bridging isocyanide

The reactions of Fe(CO)₅, Fe(CO)₄P(C₆H₅)₃, M(CO)₆ (M  W, Mo, Cr), and (CH₃C₅H₄Mn(CO)₃ with KH and several boron and aluminium hydrides were investigated. Iron pentacarbonyl was converted quantitatively to K⁺Fe(CO)₄-(CHO) by hydride transfer from KBH(OCH₃)₃ allowing isolation of [P(C₆H₅)₃]₂-Nⁿ⁺Fe(CO)₄(CHO)^? in 50% yield. Lower yields were obtained with LiBH(C₂H₅)₃, and other hydride sources gave little or no formyl product. The stability of Fe(CO)₄(CHO)^? in THP was found to depend on the cation, decreasing in the order [P(C₆H₅)₃]₂N⁺ > K⁺ > Na⁺ > Li⁺. No formyl complexes were isolated and no spectroscopic evidence for formyl formation was observed in the reactions of the other transition metal carbonyls with several hydride sources. Fe(CO)₄-P(C₆H₅)₃ gave K₂Fe(CO)₄ when treated with KHB(OCH₃)₃. When treated with LiBH(C₂H₅)₃, W(CO)₆ gave a mixture of HW₂(CO)₁₀^?and (OC)₅W(COC₂H₅)^?; the latter was methylated to give the carbene complex (OC)₅WC(OCH₃)C₂H₅.     

Molybdänhalogenidcluster mit sechs terminalen Alkoholatliganden: (C18H36N2O6Na)2[Mo6Cl8(OCH3)6] · 6CH3OH und (C18H36N2O6Na2)2[Mo6Cl8(OC6H5)6]

Molybdenum(II) Halide Clusters with six Alcoholate Ligands: (C₁₈H₃₆N₂O₆Na)₂[Mo₆Cl₈(OCH₃)₆] · 6CH₃OH and (C₁₈H₃₆N₂O₆Na)₂[Mo₆Cl₈(OC₆H₅)₆] . The reaction of Na₂[Mo₆Cl₈(OCH₃)₆] and 2,2,2-crypt yields (C₁₈H₃₆N₂O₆Na)₂[Mo₆Cl₈(OCH₃)₆] · 6 CH₃OH ( 1 ), which is converted to (C₁₈H₃₆N₂O₆Na)₂[Mo₆Cl₈(OC₆H₅)₆] ( 2 ) by metathesis with phenol. According to single crystal structure determinations ( 1 : P3 1c, a=14.613(3) Å, c=21.036(8) Å; 2 : P3 1c, a=15.624(1) Å, c=19.671(2) Å) the compounds contain anionic clusters [Mo₆Cl₈ⁱ(OR^a)₆]^2? ( 1 : d(Mo—Mo) 2.608(1) Å to 2.611(1) Å, d(Mo—Cl) 2.489(1) Å to 2.503(1) Å, d(Mo—O) 2.046(4) Å; 2 : d(Mo—Mo) 2.602(3) Å to 2.608(3) Å, d(Mo—Cl) 2.471(5) Å to 2.4992(5) Å, d(Mo—O) 2.091(14) Å). Electronic interactions of the halide cluster and the phenolate ligands in [Mo₆Cl₈(OC₆H₅)₆]^2? is investigated by means of UV/VIS spectroscopy and EHMO calculations.     

The formation of the anilinium ion from the ammonium ion in the ammonia chemical ionization of substituted benzenes

Compounds C₆H₅X(X ? F, Cl, Br, NO₂, CN, OCH₃) have been studied under chemical ionization conditions with ammonia as reagent gas. A pulsed electron beam and time resolved ion collection has allowed the determination of the reaction leading to the formation of [C₆H₅NH₃]⁺ (m/z 94). [NH₄]⁺ reacts with C₆H₅X(X ? F, Cl, Br) to yield m/z 94 but C₆H₅X (X ? CN, NO₂) forms this ion only by reactions involving either [NH₃]⁺ or [C₆H₅X]⁺. C₆H₅OCH₃ does not form m/z 94.     

Mechanism of reductive elimination of benzonitrile in cyanophenyl complexes of nickel(II) : II. Reactions of [cyano(phenyl)bis(tricyclohexylphosphine)nickel(II)]

The thermal decomposition of the complex Ni(CN)(C₆H₅)(PCy₃)₂ (Cy = cyclohexyl) in decalin has been examined. The complex reacts with P(OC₂H₅)₃ to give C₆H₅CN in quantitative yield. The mechanism of this reaction has been investigated and compared with that of the similar reaction shown by Ni(CN)(C₆H₅)(PEt₃)₂. The results indicate that the easiest path for the reaction involves a bimolecular attack of P(OC₂H₅)₃ at the metal atom before reductive elimination of C₆H₅CN.     

Isomere η2-Acyl- und σ-Alkyl(carbonyl)-Komplexe von Molybdän und Wolfram. Eine Studie zum Bildungs-mechanismus,zur Isomerisierungsgeschwindigkeit und zur Steuerung der Gleichgewichtslage

η²-Acyl and σ-Alkyl(carbonyl) Coordination in Molybdenum and Tungsten Complexes: Synthesis and Studies of the Isomerization Equilibria and Kinetics The anionic molybdenum and tungsten complexes [L_RM(CO)₃]^? (L_R^? = [(C₅H₅)Co{P(O)R₂}₃]^?, R = OCH₃, OC₂H₅, O-i-C₃H₇; M = Mo, W) have been alkylated with the iodides R′ I, R′ = CH₃, C₂H₅, i-C₃H₇, and CH₂C₆H₅. The reactivity pattern of the alkylation is in accord with a S_N2 mechanism. Depending on M, R′, reaction temperature, and time the η-alkyl (carbonyl) compounds [L_RM(CO)₃R′] and/or the isomeric η²-acyl compounds [L_RM(CO)₂(η²-COR′)] can be obtained. 8 new σ-alkyl(carbonyl) compounds and 15 new η²-acyl compounds have been isolated and characterized. The ¹H NMR and the IR spectra give conclusive evidence that the σ-alkyl(carbonyl) compounds [L_RM(CO)₃R′] are formed as the primary products of the alkylation and that they isomerize partly or completely to give the η²-acyl compounds [L_RM(CO)₂(η²-COR′)]. The position of the equilibrium σ-alkyl(carbonyl)/η²-acyl is controlled by the steric demands of the groups R′ and the ligands L_R^?. The molybdenum compounds isomerize much more readily than the tungsten compounds. The rate constants of the isomerization processes [L_RMo(CO)₃CH₃] → [L_RMo(CO)₂(η²-COCH₃)], R = OCH₃, OC₂H₅, and O-i-C₃H₇, measured at 305 K in acetone-d₆, are 6–8 x 10^?3 s^?1.     

Improved synthesis of cyclic and polymeric phosphazenes based on facile chlorine substitution with phenols promoted by cesium carbonate

In this report we describe a very convenient synthetic method for the preparation in high yields and purity of cyclic [N₃P₃(OCH₂CF₃)₆] and [N₃P₃(OC₆H₄R)₆] (R = Br, CN, CHO, COC₆H₅, COCH₃, H, OCH₃), and polymeric [NP(OC₆H₄R)₂]_n (R = Br, CHO, COC₆H₅, H, Bu^t) phosphazenes from the direct reaction of the trimer [N₃P₃Cl₆] or the high polymer [NPCl₂]_n and the alcohol HO CH₂CF₃ or the para-substituted phenols HO C₆H₄R, using Cs₂CO₃ as proton abstractor and acetone or tetrahydrofuran as solvent.     

Molybdenum-95 nuclear magnetic resonance of a series of phosphine and phosphite substituted molybdenum carbonyls Mo(CO)6−n (L) n (n=1, 2, 3, 4, 5)

Molybdenum-95 NMR spectra of a series of phosphine and phosphite substituted molybdenum carbonyls Mo(CO)_6-n L _n [L=P(OCH₃)₃ n=1, 2, 3, 4, 5,L=P(OC₂H₅)₃ n=1, 2, 3,L=P(C₆H₅)₃ n=1] including isomers (cis,trans,fac,mer) are reported, A large range of chemical shifts is found for the title compounds. The coupling constants¹ J(⁹⁵Mo-³¹P) are derived either from⁹⁵Mo-NMR spectra or³¹P-NMR spectra. Syntheses of the measured compounds were performed by thermal or photochemical ligand substitution.

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Molybdän-95 NMR einer Reihe von Phosphin- und Phosphit-substituierten Molybdäncarbonylen Mo(CO)_6–n(L) _n (n=1, 2, 3, 4, 5)

Zusammenfassung Es werden die⁹⁵Mo-NMR-Spektren der im Titel genannten Verbindungen mitL=P(OCH₃)₃ n=1–5,L=P(OC₂H₅)₃ n=1–3 undL=P(C₆H₅)₃ n=1, einschließlich von Isomeren (cis, trans, fac, mer) angegeben. Für die chemischen Verschiebungen wurde ein sehr weiter Bereich beobachtet. Die Kopplungskonstanten¹ J(⁹⁵Mo-³¹P) wurden entweder von den⁹⁵Mo- oder³¹P-NMR-Spektren ermittelt. Die Synthese der Verbindungen erfolgte mittels thermischem oder photochemischem Ligandenaustausch.

     

Organometallic chemistry of chiral diphosphazane ligands: Synthesis and structural characterisation

The diphosphazane ligands of the type, (C₂₀H₁₂O₂)PN(R)P(E)Y₂ (R = CHMe₂ or (S)-*CHMePh; E = lone pair or S; Y₂ = O₂C₂₀H₁₂ or Y = OC₆H₅ or OC₆H₄Me-4 or OC₆H₄OMe-4 or OC₆H₄Bu^t-4 or C₆H₅) bearing axially chiral 1,1'-binaphthyl-2,2′-dioxy moiety have been synthesised. The structure and absolute configuration of a diastereomeric palladium complex, [PdCl₂{ηsu2}-((O₂C₂₀H₁₂)PN((S)-*CHMePh)PPh₂] has been determined by X-ray crystallography. The reactions of [CpRu(PPh₃)₂Cl] with various symmetrical and unsymmetrical diphosphazanes of the type, X₂PN(R)PYY′ (R = CHMe₂ or (S)-*CHMePh; X = C₆H₅ or X₂ = O₂C₂₀H₁₂; Y=Y′= C₆H₅ or Y = C₆H₅, Y′ = OC₆H₄Me-4 or OC₆H₃Me₂-3,5 or N₂C₃HMe₂-3,5) yield several diastereomeric neutral or cationic half-sandwich ruthenium complexes which contain a stereogenic metal center. In one case, the absolute configuration of a trichiral ruthenium complex, viz. [Cp*Ruη₂-Ph₂PN((S)-*CHMePh)*PPh (N₂C₃HMe₂-3,5)Cl] is established by X-ray diffraction. The reactions of Ru₃(CO)₁₂ with the diphosphazanes (C₂₀H₁₂O₂)PN(R)PY₂ (R = CHMe₂orMe; Y₂=O₂C₂₀H₁₂or Y= OC₆H₅ or OC₆H₄Me-4 or OC₆H₄OMe-4 or OC₆H₄Bu^t-4 or C₆H₅) yield the triruthenium clusters [Ru₃(CO)₁₀{η-(O₂C₂₀H₁₂)PN(R)PY₂}], in which the diphosphazane ligand bridges two metal centres. Palladium allyl chemistry of some of these chiral ligands has been investigated. The structures of isomeric η³-allyl palladium complexes, [Pd(η³-l,3-R′₂-C₃H₃){η²-(rac)-(0₂C₂₀H₁₂)PN(CHMe₂)PY₂}](PF₆) (R′ = Me or Ph; Y = C₆H₅ or OC₆H₅) have been elucidated by high field two-dimensional NMR spectroscopic and X-ray crystallographic studies.     

Basische Metalle. XIII. Ein neuer Syntheseweg für Cyclopentadienyl-Rhodium-Phosphonat- aus Cyclopentadienyl-Rhodium-Phosphit-Komplexen

Basic Metals. XIII. A New Synthesis of Cyclopentadienylrhodium Phosphonate from Cyclopentadienylrhodium Phosphite Complexes C₅H₅Rh[P(OCH₃)₃]₂ reacts with alkali metal iodides MI (M = Li, Na, K) in two stages via the intermediate C₅H₅RhCH₃[P(O)(OCH₃) ₂]P(OCH₃)₃ to the corresponding bisphosphonate complexes C₅H₅RhCH₃[P(O)(OCH₃) ₂]₂M. Their properties suggest that they exist as contact ionpairs rather than dissociated ions. The reaction of C₅H₅RhCH₃[P(O)(OCH₃)₂]₂ Na with HCl in benzene yields the complex C₅H₅RhCH₃[P(O)(OCH₃) ₂]₂H, in which a chelate ligand with a P? O? H? O? P bridge is probably present. The acidic character of the bridging H atom is shown in the reaction with (CH₃)₃PCH₂ which leads to [C₅H₅RhCH₃{P(O)(OCH₃) ₂}₂][P(CH₃)₄]. C₅H₅RhCH₃[P(O)(OCH₃) ₂]₂Tl was formed in the reaction of C₅H₅RhCH₃[P(O)(OCH₃)₂]₂ H and thallium acetylacetonate. The n.m.r. spectra of the new phosphonate complexes are discussed.     

Consecutive reactions of diethoxydimethylsilane and triethoxymethylsilane with methoxide ions in methanol solution

The consecutive reactions of (CH₃)₂Si(OC₂H₅)₂ and CH₃Si(OC₂H₅)₃ with methoxide ions were investigated in methanol solutions. The reverse transesterification reactions with ethoxide ions could be neglected in both cases since the concentration of ethoxide in methanol solution was assumed to be low due to the fast equilibrium reaction C₂H₅O^? + CH₃OH ? C₂H₅OH + CH₃O^?. The progress of the reactions was followed by monitoring the formation of ethanol with a Fourier-transform infrared spectrometer. All rate constants were determined at 295 K. The reactions between the dialkoxydimethylsilanes and methoxide ions were assumed to consist of two consecutive steps that can be represented by the net reaction; (CH₃)₂Si(OC₂H₅)₂ + 2CH₃O^? → (CH₃)₂Si(OCH₃)₂ + 2C₂H₅O^?. The two consecutive rate constants were established as 1.93 ± 0.12M^?1s^?1 and 1.00 ± 0.12M^?1s^?1, respectively. The consecutive rate constants for the reactions between the trialkoxymethylsilanes and methoxide ions can be written according to the total reaction; CH₃Si(OC₂H₅)₃ + 3CH₃O^? → CH₃Si(OCH₃)₃ + 3C₂H₅O^?. The three rate constants corresponding to each consecutive step were established as 1.12 ± 0.09 M^?1s^?1, 0.82 ± 0.10 M^?1s^?1, and 0.51 ± 0.06 M^?1s^?1, respectively. © 1995 John Wiley & Sons, Inc.