New Reactions and Reagents for Phosphorus-carbon Bond-formation PDF Download

Author: Michael B. Geeson
Publisher:
ISBN:
Category :
Languages : en
Pages : 373

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Book Description
Chapter 1 takes the format of an "Outlook", and sets forth the case for developing sustainable methods in the synthesis of phosphorus-containing compounds. Methods used by nature for phosphorus-carbon bond-formation, or in the chemistry of other elements such as silicon, are discussed as model processes for the future of phosphorus in chemical synthesis. Chapter 2 describes the discovery of [TBA][P(SiCl3)2], prepared from [TBA]3[P3O9]-.2H2O and trichlorosilane. The bis(trichlorosilyl)phosphide anion is used to prepare compounds that contain P–C, P–O, P–F, and P–H bonds in a method that bypasses white phosphorus (P4), the traditional route to organophosphorus compounds. Chapter 3 extends the phosphate precursors to [TBA][P(SiCl3)2] from trimetaphosphate to crystalline phosphoric acid. Balanced equations are developed for the formation of [TBA][P(SiCl3)2] from phosphate sources and the byproducts are identified as hexachlorodisiloxane and hydrogen gas. Extension of trichlorosilane reduction to bisulfate provides improved access the known trichlorosilylsulfide anion, [TBA][SSiCl3]. This anion was used as a thionation reagent to prepare thiobenzophenone and benzyl mercaptan from benzophenone and benzyl bromide, respectively. Chapter 4 describes the synthesis of neutral phosphine, HP(SiCl3)2, obtained by protonation of [TBA]1 with triflic acid. HP(SiCl3)2 is a highly efficient reagent for photochemical hydrophosphination of terminal alkenes. The phosphorus-silicon bonds in the hydrophosphination products can be functionalized to provide compounds of the general formulae: RPCl2, RPH2, [RP(R')3]Cl, RP(O)(H)(OH), and RP(O)(OH)2. Chapter 5 describes a method to prepare phosphiranes (three-membered rings that contain a phosphorus atom) from anthracene-based phosphinidene precursors and styrenic olefins. The phosphinidene transfer reaction requires an organoiron and fluoride catalyst. The resulting phosphirane is prepared in good yield (73%) with high stereoselectivity (>99%). Experimental investigations into the mechanism point toward the intermediacy of an iron-coordinated fluorophosphide species.

Author: Robert Engel
Publisher: CRC Press
ISBN: 0203998243
Category : Science
Languages : en
Pages : 200

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Book Description
Synthesis of Carbon-Phosphorus Bonds, Second Edition is a working guide for the laboratory, incorporating classical approaches with the recent developments of carbon-phosphorus (C-P) bond formation. These advances include the preparation of phosphoranes - specifically in the use of transient oxophosphoranes as intermediates in organophosphorus comp

Author: Sylvine Deprele
Publisher:
ISBN:
Category : Chemical bonds
Languages : en
Pages : 474

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Author: Yamina Belabassi
Publisher:
ISBN:
Category : Chemical bonds
Languages : en
Pages :

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The work presented in this dissertation deals with the development of new methodologies for P-C bond formation as well as synthesizing biologically relevant organophosphorus compounds. A distinct emphasis is given to the important synthetic targets, the H-phosphinates. A review of relevant literature is provided in Chapter 1. Chapter 2 describes the synthesis and structural analyses, of triphenylmethyl-containing phosphorus compounds. For the first time, both phosphonothioic and boranophosphonic acids have been characterized by single X-ray diffractometry. The third chapter details the preparation and the reactivity of phosphine-borane complexes. Novel dialkoxyphosphine-borane complexes were introduced, both as general synthetic intermediates for the preparation of H-phosphinates or disubstituted phosphinic acids, and as boranophosphonate precursors. Related to this chemistry, silylation of an H-phosphinate intermediate can also be conducted and the resulting phosphonite protected with borane. This allows the temporary protection of the sensitive P-H group, so that manipulations of the alkyl chain might be conducted. In chapter 4, the palladium-catalyzed cross-coupling reaction of dialkylphosphites with aryl and heteroaryl halides is presented. An efficient, versatile and economically attractive alternative to the original Hirao cross-coupling by using only 1 mol% (or less) Pd(OAc)2/dppf is described. Moreover, first example of palladium-catalyzed P-C bond formation between activated aryl chlorides and a phosphite are herein reported. Chapter 5 focuses on the free-radical hydrophosphinylation of alkynes. The triethylborane-initiated radical addition of sodium hypophosphite to terminal alkyne affords the previously unknown 1,1-bis-H-phosphinates, precursors of the biologically relevant 1,1-bisphosphonates (e.g., treatment of bone diseases). Thus, the oxidative conversion of 1,1-bis-H-phosphinates to the corresponding bisphosphonates, as well as the synthesis of a series of bio-conjugates (steroids, carbohydrates, fluoroquinolones) was investigated. In the last chapter, the palladium-catalyzed hydrophosphinylation of hypophosphorous acid derivatives to terminal alkynes is reported. In an effort to improve the regioselectivity of the reaction, various terminal alkynes were tested, as well as the solvent and catalyst system.

Author: Henry C. Fisher
Publisher:
ISBN:
Category : Chemical bonds
Languages : en
Pages :

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The work in this dissertation deals with the continued development of new methodologies for P-C and P-O bond formation using alternative methods that avoid the use of PCl3. A review of the relevant literature that proceeds this work is presented in Chapter 1. Chapter 2 describes the study of the P(III) to P(V) tautomerization of phosphinylidene compounds and the structural influences that effect the thermodynamic and kinetic properties to favor the more reactive P(III) species. A collaboration using both computational and experimental methods, show that electron withdrawing groups such as phenyl stabilize the tautomerization of phosphinylidene compounds. The second part of this work highlights the influence of various catalysts on P(III) to P(V) tautomerization. Using computational chemistry as a screening tool, a variety of organic acids and bases were tested. The calculations and experimental results are in good agreement. Chapter 3 describes the work to develop the nickel-catalzyed hydrophosphinylation of unactivated alkenes, an extension of the work started with the nickel-catalyzed hydrophosphosphinylation of alkynes. The results show that nickel chloride is pre-activated to an active Ni(0) species and can be stabilized by the inexpensive bisphosphine ligand, ethylbis(diphenylphosphine), dppe. The reaction occurs at room temperature and works on a variety of different alkene substrates. Other manipulations used in tandem with the initial nickel hydrophosphinylation are highlighted, and show the reaction to be a versatile tool for making alkyl-H-phosphinate derivatives as precursors for further use. Chapter 4 details the development of manganese-promoted intermolecular and intramolecular additions of alkenes, alkynes and aryl compounds with H-phosphinates is described. The system utilizing catalytic Mn(OAc)2 either neat or in DMSO, is successful for a variety of different alkenes and two alkyne substrates. A more efficient and cost-effective system was recently developed for H-phosphinate arylations using catalytic Mn(OAc)2 and MnO2 as an oxidant, and further applied to alkene phosphonochlorination with LiCl. In Chapter 5, nickel-catalyzed oxidation of alkyl hypophosphites is utilized to prepare ubiquitous alkyl-H-phosphonates starting from hypophosphorous acid and avoiding the use of PCl3. The reaction can be considered a form of water splitting. The studies show that after the intitial esterification step, NiCl2 or Ni/SiO2 is enough to oxidize the first P-H bond to form the desired phosphonate. The reaction has been applied to the synthesis of the global herbicide glyphosate.

Author: Jean-Pierre Majoral
Publisher: Springer Science & Business Media
ISBN: 9783540007142
Category : Biochemistry
Languages : en
Pages : 238

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Author: Jeffrey C. H. Dyck
Publisher:
ISBN:
Category :
Languages : en
Pages :

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The phosphonium salt room temperature ionic liquid tetradecyltrihexylphosphonium chloride (THPC) has been employed as an efficient reusable media for the palladium catalyzed Suzuki cross-coupling reaction of aryl halides, including aryl chlorides, under mild conditions. The cross-coupling reactions were found to proceed in THPC containing small amounts ofwater and toluene (single phase) using potassium phosphate and 1% Pd2(dba)3'CHCI3. Variously substituted iodobenzenes, including electron rich derivatives, reacted efficiently in THPC with a variety of arylboronic acids and were all complete within 1 hour at 50°C. The corresponding aryl bromides also reacted under these conditions with the addition of a catalytic amount of triphenylphosphine that allowed for complete conversion and high isolated yields. The reactions involving aryl chlorides were considerably slower, although the addition of triphenylphosphine and heating at 70°C allowed high conversion of electron deficient derivatives. Addition of water and hexane to the reaction products results in a triphasic system, from which the catalyst was then recycled by removing the top (hexanes) and bottom (aqueous) layers and adding the reagents to the ionic liquid which was heated again at 50°C; resulting in complete turnover of iodobenzene. Repetition of this procedure gave the biphenyl product in 82-97% yield (repeated five times) for both the initial and recycled reaction sequences. IL ESTERIFICATIONREACTION A new class oftrialkylphosphorane has been prepared through reaction of a trialkylphosphine with 2-chlorodimethylmalonate in the presence oftriethylamine. These new reagents promote the condensation reaction of carboxylic acids with alcohols to provide esters along with trialkylphosphine oxide and dimethylmalonate. The condensation reaction of chiral secondary alcohols can be controlled to give either high levels of inversion or retention through a subtle interplay involving basicity of the reaction media, solvent, and tuning the electronic and steric nature of the carboxylic acid and stenc nature of the phosphorane employed. A coherent mechanism is postulated to explain these observations involving reaction via an initial acyloxyphosphonium ion.

Author: Jean-Pierre Majoral
Publisher: Springer
ISBN: 3540457313
Category : Science
Languages : en
Pages : 250

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Book Description
Undoubtedly the chemistry of phosphorus appears more and more attractive in the sense that phosphorus presents an extraordinary versatile behaviour that allows the synthesis of a large number of different phosphorus reagents usable for applications in different fields, from biology to material science without f- getting key applications in catalysis. The full maturity of this topic of research can be explained by all the acquired knowledge over these twenty last years. Organic and inorganic chemistries of P , P and P species have been the s- in ]V v ject of thousands of publications while the chemistry of low coordinated ph- phorus derivatives experienced its hour of glory from the 1970s to the early 1990s. In parallel, interactions between phosphorus compounds and transition metals afforded many complexes, a lot of which present fascinating properties as catalysts. The interest in all these themes really is not decreasing, indeed some fas- nating areas of research are emerging or are the subject of many investigations: the medicinal chemistry of bisphosphonates, the role of phosphorus in biology, phosphorus ligands in radiopharmaceutical chemistry, phosphorus in material science, new polymers and dendrimers incorporating phosphorus, and as- metric catalysis to name but a few. Indeed researchers, benefitting from their background in basic phosphorus chemistry are developing many new fields of research.

Author: Louis D. Quin
Publisher: John Wiley & Sons
ISBN:
Category : Science
Languages : en
Pages : 456

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Author: György Keglevich
Publisher: MDPI
ISBN: 3039282360
Category : Science
Languages : en
Pages : 602

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Organophosphorus chemistry is an important discipline within organic chemistry. Phosphorus compounds, such as phosphines, trialkyl phosphites, phosphine oxides (chalcogenides), phosphonates, phosphinates and >P(O)H species, etc., may be important starting materials or intermediates in syntheses. Let us mention the Wittig reaction and the related transformations, the Arbuzov- and the Pudovik reactions, the Kabachnik–Fields condensation, the Hirao reaction, the Mitsunobu reaction, etc. Other reactions, e.g., homogeneous catalytic transformations or C-C coupling reactions involve P-ligands in transition metal (Pt, Pd, etc.) complex catalysts. The synthesis of chiral organophosphorus compounds means a continuous challenge. Methods have been elaborated for the resolution of tertiary phosphine oxides and for stereoselective organophosphorus transformations. P-heterocyclic compounds, including aromatic and bridged derivatives, P-functionalized macrocycles, dendrimers and low coordinated P-fragments, are also of interest. An important segment of organophosphorus chemistry is the pool of biologically-active compounds that are searched and used as drugs, or as plant-protecting agents. The natural analogue of P-compounds may also be mentioned. Many new phosphine oxides, phosphinates, phosphonates and phosphoric esters have been described, which may find application on a broad scale. Phase transfer catalysis, ionic liquids and detergents also have connections to phosphorus chemistry. Green chemical aspects of organophosphorus chemistry (e.g., microwave-assisted syntheses, solvent-free accomplishments, optimizations, and atom-efficient syntheses) represent a dynamically developing field. Last, but not least, theoretical approaches and computational chemistry are also a strong sub-discipline within organophosphorus chemistry.