<Emphasis Type="Italic">N</Emphasis>-(2-chloro-1,2-difluorovinyl) derivatives of azoles

Reactions of N-(2,2-dichloro-1,1,2-trifluoroethyl)-substituted azoles with zinc, magnesium, butyllithium, and tris(diethylamino)phosphine were studied, and optimal conditions for the preparation of the corresponding N-(2-chloro-1,2-difluorovinyl) derivatives were found [tris(diethylamino)phosphine, chlorotrimethylsilane]. Some reactions of the obtained unsaturated fluorinated compounds with sulfur-centered nucleophiles were examined.     

1 ,3 ,2-Oxazaphospholidine Derivatives(I)——The Synthessa of 2 - Diethylamino- 3-arylsulfonyl- 1,3,2-Oxazaphospholidine and Its 2-thiono Deiativea and Their Properties

A series of new 2-diethylamino-3-substituted phenylsulfonyl-1,3,2-oxazaphospholidine derivatives (Ⅰ) has been synthesized by the reaction of tris(diethylamino) phosphine with N-(β-hydroxyethyl) substitutedphenylsulfonamides. When was refluxed with sulfur in benzene, the 2-thiono derivatives (Ⅱ) was obtained conveniently.(Ⅰ) was easily oxidized in air and the diethylamino group could be substituted by phenoxy or other amino group giving the corresponding derivatives. Their H NMR and MS spectra have been discussed. Some of compounds (Ⅱ) have herbicidal activities.     

A one-pot synthesis of a branched tertiary phosphine oxide from red phosphorus and 1-(tert-butyl)-4-vinylbenzene in KOH-DMSO: an unusually facile addition of P-centered nucleophiles to a weakly electrophilic double bond

Red phosphorus reacts with 1-(tert-butyl)-4-vinylbenzene in a superbase media (KOH-DMSO, 90-100 °C, 3 h) to give tris[4-(tert-butyl)phenethyl]phosphine oxide in 77% yield. Microwave activation of the reaction affords the phosphine oxide in 82% yield in 6 min.     

Action du Tris(Diméthylamino)phosphine et de l'Oxyde de P,P-dichlorophenylphosphine sur les N 1Tosylamidrazones: Obtention des 3-(Dimethylamino) 1,2,4,3-triazaphospholines et des 3-Oxo1,2,4,3-triazaphospholines

The reaction of N¹-tosylamidrazones with tris(dimethylamino)phosphine and P,P-dichlorophenylphosphine oxide provides respectively a convenient access to the new 3-(dimethylamino)-1,2,4,3-triazaphospholines and 1,2,4,3-triazaphosphlines-3-oxide. The structure of all obtained products is confirmed by NMR (¹ H, ³¹ P, ¹³C) and IR spectroscopy.     

1,3,2-氧氮磷杂环戊烷衍生物(Ⅱ)——2-二乙氨基-3-取代甲酰基-1,3,2-氧氮磷杂环戊烷衍生物的合成及其性质研究

用六乙基亚磷酰胺与N-(β-羟基乙基)取代甲酰胺进行成环反应,合成了一系列新的有机磷杂环化合物,2-二乙氨基-3-取代甲酰基-1,3,2-氧氮磷杂环戊烷,然后与硫作用生成2-硫逐代衍生物,亦可不经分离一步完成上述反应。     

Furfuryl-containing tertiary phosphine oxides and polymers based on some of them

The syntheses of dimethyl(furfuryloxymethyl)phosphine oxide (DPO), methylbis(furfuryloxymethyl)phosphine oxide (MPO), tris(furfuryloxymethyl)phosphine oxide (TPO), dimethyl(tetrahydrofurfuryloxymethyl)phosphine oxide (DTPO), methyl-bis(tetrahydrofurfuryloxymethyl)phosphine oxide (MTPO) and tris(tetrahydrofurfuryloxymethyl)phosphine oxide (TTPO) from dimethyl(chloromethyl)phosphine oxide, methyl-bis(chloromethyl)phosphine oxide, tris(chloromethyl)phosphine oxide and the furfuryl and tetrahydrofurfuryl sodium alkoxides via the Williamson reaction are reported. Phosphorus-containing furan polymers with reduced flammability are prepared by polymerizing MPO and TPO using p-toluenesulphonic acid as catalyst. The oxygen indexes of these polymers, as determined by ASTM D-2863, are 35.1 and 33.1% O₂, respectively; for the phosphorus-free polymer from difurfurylidene acetone, it is 23.0% O₂. It is shown that DPO can be used as an efficient fire-retardant for reducing the flammability of a polymer from difurfurylidenacetone.     

(Benzene‐1,3,5‐triyl)tris[phosphine] (C6H3(PH2)3) and (Benzene‐1,3,5‐triyl)tris[phosphonic Acid] (C6H3[P(O)(OH)2]3). Absence of Hydrogen Bonding in Solid Primary Phosphines

The prolonged photo‐Arbuzov reaction (3 weeks, Hg lamp) of 1,3,5‐trichloro‐benzene with a large excess of trimethyl phosphite (as a solvent) at 50° gives moderate yields of dimethyl (3,5‐dichlorophenyl)phosphonate ( 1 ; 14.5%), tetramethyl (5‐chloro‐1,3‐phenylene)bis[phosphonate] ( 2 ; 35.4%), and hexamethyl (benzene‐1,3,5‐triyl)tris[phosphonate] ( 3 ; 30.1%). The products can be separated by fractional distillation. Acid hydrolysis of the esters gives almost quantitative yields of the corresponding phosphonic acids 4 – 6 . Reduction of the esters 1 – 3 by LiAlH₄ in tetrahydrofuran affords the primary phosphines (3,5‐dichlorophenyl)phosphine ( 7 ; 46.5%), (5‐chloro‐1,3‐phenylene)bis[phosphine] ( 8 ; 34.5%) and (benzene‐1,3,5‐triyl)tris[phosphine] ( 9 ; 25.2% yield). In the crude reduction products from 2 (preparation of 8 ) and from 3 (preparation of 9 ), (3‐chlorophenyl)phosphine and (1,3‐phenylene)bis[phosphine], respectively, are observed as by‐products. All compounds are characterized by standard analytical, spectroscopic, and (for 1, 7 , and 8 ) structural techniques. The arrangement of the molecules in the crystal structures of 7 and 8 suggest that H‐bonding between the primary arylphosphines is virtually insignificant for the packing of the components. This is in marked contrast to the importance of H‐bonding for the supramolecular chemistry of arylamines. The new primary polyphosphines and polyphosphonic acids are to be employed in the construction of extended arrays.     

Tertiary Phosphine Oxides in Reaction with Benzaldehyde

Symmetrical and unsymmetrical tertiary phosphine oxides containing benzyl and 5-chloro-2-thienyl radicals stereoselectively react with benzaldehyde in the sodium amide-THF system to form the E isomers of 1-organyl-2-phenylethene and diorganylphosphinic acids in high yields. Triethyl, tris(2-phenyl- ethyl)-, and tris[(4-methoxyphenyl)methyl]phosphine oxides under the above-mentioned conditions do not react with benzaldehyde.     

2,8-dithia-1,5-diphosphabicyclo[3,3,0]octan- und 2,8-dithia-1-phospha-5-arsabicyclo[3,3,0]octane-derivate

The reaction of dimercaptoethylphosphane HP(CH₂CH₂SH)₂ with tris (diethylamino)phosphane or tris(diethylamino)arsane leads in high yields to the title compounds.     

Novel 1‐Aminomethylisatins: Peculiarities of the Synthesis and the Reaction with Tris(diethylamino)phosphine

The Mannich reaction of isatin with different primary and secondary amines and effect of the substituent in aromatic amines on the reaction pathway is studied. The efficient high‐yield synthesis of novel isoindigo derivatives by the mild deoxygenation reaction of the corresponding isatins with tris(diethylamino)phosphine is described.     

Reaction of tris(hydroxymethyl)phosphine and cinnamaldehyde in methanol

Reaction of tris(hydroxymethyl)phosphine with excess cinnamaldehyde in CH₃OH or CD₃OD, followed using NMR, proceeds via several phosphorus-containing intermediates, multiple transformations of organic parts, and with the solvent H/D isotope effect on products. In both solvents, one CH₂OH group of tris(hydroxymethyl)phosphine is readily replaced by the cinnamaldehyde moiety to give the primary product, a 1,3-oxaphosphorinane derivative. Slower replacement of the second CH₂OH group leads to a mixture of aliphatic and heterocyclic phosphine intermediates in a ratio of ~4:1 in CH₃OH and ~1:1 in CD₃OD; both intermediates contain alcohol and aldehyde groups and convert rapidly into intra- and intermolecular hemiacetals. The hemiacetals of the aliphatic phosphine rearrange further into an unsymmetrical trialkylphosphine oxide, whereas the hemiacetals of the heterocyclic phosphine react with the third mole of cinnamaldehyde to replace the third CH₂OH group of tris(hydroxymethyl)phosphine. All intermediates and products are formed as mixtures of stereoisomers.     

Reactions of 4-ethoxy-l,l,l-trifluoro-3-buten-2-one with phosphorous nucleophiles: Diethyl phosphite, tributyl phosphine and tris(diethylamino) phosphine

The reaction of (E)-4-ethoxy-l,l,l-trifluoro-3-buten-2-one EtOCHCHCOCF₃1 with diethyl phosphite (EtO)₂P(O)H 2 afforded a 1:1 cis- and trans-mixture of diethyl(l-trifluomethyl-3-ethoxy)allyl-phosphate EtO-CHCH-CH(CF₃)OP(O)(OEt)₂3 via the 1,2-λ⁵-oxaphosphol-4-ene intermediate. While tributyl phosphine Bu₃P added to 1 giving the double addition product Bu₃P⁺CH₂-C⁻(COCF₃)-CHCH-COCF₃5. Its resonance structure was fully identified by spectral methods and single crystal X-ray diffraction analysis. More strong phosphorous nucleophile tris(diethylamino) phosphine (Et₂N)₃P reacted with 1 to give the known compound (E)-4-(diethylamino)-l,l,l-trifluoro-3-buten-2-one Et₂N-CHCH-COCF₃10 in good yield.     

Reaction of N‐thioamido amidines with phosphoramide derivatives: Synthesis of 2‐substituted‐1,3,5,2‐triazaphosphorines

The reaction of N‐thioamido amidines 1 with tris(dimethylamino)phosphine or bis(diethylamino)phenylphosphine in refluxing toluene leads to the 1,3,5,2λ³‐triazaphosphorines 2 and 3 , respectively. The condensation results in the release of two molecules of dialkylamine. The sulfuration of the trivalent phosphorus atoms was achieved by the reaction with elemental sulfur, followed by heating in toluene. The structure of the triazaphosphorines 2 and 3 and their thione derivatives 4 and 5 were readily elucidated by means of ¹H, ¹³C, and ³¹P NMR spectroscopy and mass spectrometry. © 2009 Wiley Periodicals, Inc. Heteroatom Chem 20:272–277, 2009; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/hc.20546     

Reactions of Elemental Phosphorus and Phosphine with Electrophiles in Superbasic Systems: XV. Phosphorylation of Allyl Halides with Elemental Phosphorus

Elemental phosphorus (red or white) reacts with allyl chloride and allyl bromide in a two-phase system aqueous KOH-organic solvent to form tertiary symmetrical and mixed phosphine oxides among which tris(prop-2-enyl)-, bis(prop-2-enyl)[(E)-prop-1-enyl]-, bis(prop-2-enyl)[(Z)-prop-1-enyl]-, (prop-2-enyl)[(E)-prop-1-enyl][(Z)-prop-1-enyl]-, bis[(E)-prop-1-enyl](prop-2-enyl)-, bis[(Z)-prop-1-enyl](prop-2-enyl)-, tris-[(E)-prop-1-enyl]-, and bis[(E)-prop-1-enyl][(Z)-prop-1-enyl]phosphine oxides were identified. The conditions (room temperature, 60% aqueous KOH-dioxane) allowing preparation from white phosphorus and allyl bromide of tris(prop-2-enyl)- and bis(prop-2-enyl)[(E)-prop-1-enyl]phosphine oxides as major products in the total yield of up to 96% were found.     

Darstellung und Eigenschaften von Tris(diphenylamino)-phosphin

Preparation and Properties of Tris (diphenylamino) Phosphine The synthesis and some properties of tris(diphenylamino)phosphine are described. Displacement of the chlorine atom is readily achieved by reaction of (Ph₂N)₂PCl with Ph₂NSime₃. Thus tris(diarylamino)phosphine (Ph₂N)₃P is obtained almost in quantitativ yield. The aminolysis reaction of PCl₃ or (Ph₂N)₂PCl with Ph₂NH gives also (Ph₂N)₃P. The properties and structure of the phosphine on basis of spectroscopical and X-ray investigations are discussed.     

Rhodium-catalyzed 1,4-addition of terminal alkynes to vinyl ketones

The metal complex Rh(acac)(CO)₂ in the presence of an eqimolar amount of tris(o-methoxyphenyl)phosphine provides a useful catalyst system for the 1,4-addition of alkynes to unsubstituted vinyl ketones. Best yields are obtained when the transformation is performed in benzene at reflux with an excess of vinyl ketone. Both aryl and alkyl substituted alkynes participate in the reaction. Primary alcohols and alkyl chlorides are well tolerated under these reaction conditions. The reaction also proceeds in aqueous solvent mixtures, unlike most organometallic addition reactions.     

Organische Phosphorverbindungen XXVIII. Die α-Aminoalkylierung von elementarem weissem Phosphor. Eine einfache Methode zur Darstellung von tertiären Phosphinoxiden,Phosphinsäuren und Phosphonsäuren [1]

White phosphorus reacts with N-hydroxymethyl-dialkylamines to give mainly three products, i.e., tris(dialkylaminomethyl) phosphine oxides, bis(dialkylamino-methyl) phosphinic acids, and dialkylaminomethyl phosphonic acids, according to the equation: The yield of the various products depends mainly upon the ratio of the reactants, the pH, and the solvents used.     

Reactions of Tris(diethylamino)phosphine with Some Quinones

Abstract

Tris(diethylamino)phosphine reacts with chloranil and 2,3-dichloro-4,5-dicyanoquinone to give products of addition to carbon with loss of chloride ion.     

Phosphine-mediated diverse reactivity of γ-substituted allenoates with aldehydes: syntheses of highly functionalized chromans and (E,E)-1,3-dienes

As an extension of our previous studies, the phosphine-mediated diverse reactivity of γ-substituted allenoates with aldehydes has been further investigated. Under the catalysis of tris(p-chlorophenyl)phosphine (20 mol %), ethyl 2,3-pentadienoate, namely ethyl γ-methyl allenoate, readily undergoes a formal [4+2] annulation with dual-functional salicylaldehydes, giving highly functionalized chromans in 47-97% yields. This transformation represents a novel reactivity pattern of electron-deficient allenes with aldehydes. Conversely, when the γ substituent in the allenoate changes from methyl to benzyl or the employed phosphine from weakly nucleophilic triarylphosphine to strongly trialkylphosphine, the phosphine-mediated reactivity of γ-substituted allenoates with aldehydes will be steered to a stoichiometric olefination reaction, leading to the highly stereoselective formation of (E,E)-1,3-dienes. Thus, under the mediation of equivalent PPh₃, ethyl γ-benzyl allenoate readily condenses with salicylaldehydes, affording (E,E)-1,3-dienes in 34-84% yields; with strongly nucleophilic 1,3,5-triaza-7-phosphaadamantane (PTA) used instead of PPh₃, ethyl γ-methyl allenoate also gives the corresponding olefination products in 32-73% yields with reactive aromatic aldehydes. On the basis of our previous studies and current work, these chemical transformations of γ-substituted allenoates with aldehydes, as well as their diverse reactivity, have been mechanistically rationalized.     

Organometallphosphin-substituierte Übergangsmetall-Komplexes. XXV. Organoelement(IV b)phosphin-Derivate von Tetracarbonyl(trimethylstannyl)cobalt

Organometal Phosphine Substituted Transition Metal Complexes. XXV. Organoelement(IVb) Phosphine Derivatives of Tetracarbonyl(trimethyltin)cobalt Tetracarbonyl(trimethyltin)cobalt reacts with di(tert-butyl)phosphine, tri(tert-butyl)phosphine, di(tert-butyl)chlorophosphine as well as with tris(trimethylgermanium)- and tris(trimethyltin)phosphine with displacement of one CO ligand and formation of the corresponding organoelement(IVb) phosphine substituted tricarbonyl(trimethyltin)cobalt complexes. The i.r., Raman, ¹H-n.m.r., and ³¹P-n.m.r. spectra of the complexes are reported are reported and discussed.