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1

Thomson, RJ, WR Jackson, D. Haarburger, EI Klabunovsky und VA Pavlov. „The Stereochemistry of Organometallic Compounds. XXIX. Synthesis of Steroidal 1,4-Diphosphine, 1,3-Diphosphine and 1,6-Diphosphine and Their Evaluation as Ligands in Metal Catalyzed Asymmetric Synthesis“. Australian Journal of Chemistry 40, Nr. 6 (1987): 1083. http://dx.doi.org/10.1071/ch9871083.

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The steroidal 1,4-diphosphines 3α- and 3β-diphenylphosphino-2a-(2'-diphenylphosphinoethyl)-5α-cholestanes and their 5H-benzo[b] phosphindole derivatives have been prepared and shown to be useful ligands in asymmetric hydrogenation reactions. Interestingly the 3α- and 3β-derivatives lead to opposing enantioselection preferences when used in these reactions. A steroidal 1,3-diphosphine, 3α-diphenylphosphino-2α-diphenylphosphinomethyl-5α-cholestane, has been prepared as a mixture containing some of the 3β-epimer. The 3α-1,3-diphosphine led to similar enantioselection in hydrogenation reactions as the 3α-1,4-diphosphine, and a model is proposed to explain the sense of the enantioselectivity in the 1,4- and 1,3-diphosphines. A steroidal 1,6-diphosphine has also been prepared but leads to lower optical yields in the hydrogenation reactions. These ligands have been shown to lead to only poor to moderate optical yields when used in asymmetric carbon-carbon bond forming reactions.
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2

Ahmed S. M. Al-Janabi, Hayfa Muhammed Jerjes und Mohammed H. Salah. „Synthesis and characterization of new metal complexes of thione and phosphines Ligands“. Tikrit Journal of Pure Science 22, Nr. 9 (01.02.2023): 53–57. http://dx.doi.org/10.25130/tjps.v22i9.875.

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The complexes containing mixed of ligands [5-(3-chlorophenyl) -1,3,4-oxadiazole-2-thione(CPoxSH)] and diphosphines Ph2P(CH2)nPPh2 (diphos)(n=1-4), are prepared by the reaction of [Hg(CPoxS)2] or [M(H2O)2(CPoxS)2] (M = Co, Ni ) with one mole proportion of the diphosphine Ph2P(CH2)nPPh2 gave tetrahedral complexes of the type [Hg(CPoxS)2(diphos)]. While gave an octahedral complexes with cobalt(II) and nickel(II) ions of the type [M(H2O)(CPoxS)2(diphos)] when (M = Co and Ni ) receptivity. The prepared complexes were characterized by molar conductivity, elemental analysis, IR, 1H, 13C-{1H} and 31P-{1H} n.m.r.
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3

Quirmbach, Michael, Jens Holz, Vitali I. Tararov und Armin Börner. „Synthesis of Heterofunctionalized Multidentate Diphosphines“. Tetrahedron 56, Nr. 5 (Januar 2000): 775–80. http://dx.doi.org/10.1016/s0040-4020(99)01075-3.

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4

Lee, Kyounghoon, Courtney M. Donahue und Scott R. Daly. „Triaminoborane-bridged diphosphine complexes with Ni and Pd: coordination chemistry, structures, and ligand-centered reactivity“. Dalton Transactions 46, Nr. 29 (2017): 9394–406. http://dx.doi.org/10.1039/c7dt02144e.

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5

Zablocka, Maria, Nathalie Cénac, Alain Igau, Bruno Donnadieu, Jean-Pierre Majoral, Aleksandra Skowronska und Philippe Meunier. „Regioselective Synthesis of Tricyclic 1,1-Diphosphines“. Organometallics 15, Nr. 25 (Januar 1996): 5436–38. http://dx.doi.org/10.1021/om960545v.

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6

Zhou, Jianrong Steve, Siyu Guo, Xiaohu Zhao und Yonggui Robin Chi. „Nickel-catalyzed enantioselective umpolung hydrogenation for stereoselective synthesis of β-amido esters“. Chemical Communications 57, Nr. 87 (2021): 11501–4. http://dx.doi.org/10.1039/d1cc05257h.

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7

Louise Hazeland, E., Andy M. Chapman, Paul G. Pringle und Hazel A. Sparkes. „A one-step, modular route to optically-active diphos ligands“. Chemical Communications 51, Nr. 50 (2015): 10206–9. http://dx.doi.org/10.1039/c5cc03517a.

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A chlorosilane elimination reaction has been developed that allows the efficient synthesis of optically pure C1-symmetric, C1-backboned diphosphines with a wide variety of stereoelectronic characteristics.
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8

Burck, Sebastian, Imre Hajdók, Martin Nieger, Denis Bubrin, Simon Schulze, Dietrich Gudat und Dietrich Gudat. „Activation of Polarized Phosphorus–Phosphorus Bonds by Alkynes: Rational Synthesis of Unsymmetrical 1,2-Bisphosphine Ligands and Their Complexes“. Zeitschrift für Naturforschung B 64, Nr. 1 (01.01.2009): 63–72. http://dx.doi.org/10.1515/znb-2009-0109.

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The reactions of 1,1-diamino-2,2-diphenyl-substituted diphosphines featuring various degrees of P-P bond polarization with different alkynes were investigated. All diphosphines reacted with alkynes carrying one or two electron withdrawing carboxylic ester moieties under cleavage of the P-P bond and stereospecific phosphinyl-phosphination at the triple bond to give unsymmetrical ethane-1,2- bisphosphines. Several of the products were further converted into chelate complexes upon reaction with group-10 metal dihalides. All isolated compounds were characterized by analytical and spectroscopic data, and several of the new ligands and complexes by single-crystal X-ray diffraction studies.
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9

Knopf, Ioana, Daniel Tofan, Dirk Beetstra, Abdulaziz Al-Nezari, Khalid Al-Bahily und Christopher C. Cummins. „A family of cis-macrocyclic diphosphines: modular, stereoselective synthesis and application in catalytic CO2/ethylene coupling“. Chemical Science 8, Nr. 2 (2017): 1463–68. http://dx.doi.org/10.1039/c6sc03614g.

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The stereoselective synthesis of a family of cis-macrocyclic diphosphines was achieved in only three steps from white phosphorus and commercial materials. These new ligands showed activity in the nickel-catalyzed coupling of CO2 and ethylene.
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10

Alder, Roger W., und David Read. „Medium-ring diphosphines: synthesis and transannular chemistry“. Coordination Chemistry Reviews 176, Nr. 1 (September 1998): 113–33. http://dx.doi.org/10.1016/s0010-8545(98)00114-3.

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11

Arisawa, Mieko. „Transition-Metal-Catalyzed Synthesis of Organophosphorus Compounds Involving P–P Bond Cleavage“. Synthesis 52, Nr. 19 (07.07.2020): 2795–806. http://dx.doi.org/10.1055/s-0040-1707890.

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Organophosphorus compounds are used as drugs, pesticides, detergents, food additives, flame retardants, synthetic reagents, and catalysts, and their efficient synthesis is an important task in organic synthesis. To synthesize novel functional organophosphorus compounds, transition-metal-catalyzed methods have been developed, which were previously considered difficult because of the strong bonding that occurs between transition metals and phosphorus. Addition reactions of triphenylphosphine and sulfonic acids to unsaturated compounds in the presence of a rhodium or palladium catalyst lead to phosphonium salts, in direct contrast to the conventional synthesis involving substitution reactions of organohalogen compounds. Rhodium and palladium complexes catalyze the cleavage of P–P bonds in diphosphines and polyphosphines and can transfer organophosphorus groups to various organic compounds. Subsequent substitution and addition reactions proceed effectively, without using a base, to provide various novel organophosphorus compounds.1 Introduction2 Transition-Metal-Catalyzed Synthesis of Phosphonium Salts by Addition Reactions of Triphenylphosphine and Sulfonic Acids3 Rhodium-Catalyzed P–P Bond Cleavage and Exchange Reactions4 Transition-Metal-Catalyzed Substitution Reactions Using Diphosphines4.1 Reactions Involving Substitution of a Phosphorus Group by P–P Bond Cleavage4.2 Related Substitution Reactions of Organophosphorus Compounds4.3 Substitution Reactions of Acid Fluorides Involving P–P Bond Cleavage of Diphosphines5 Rhodium-Catalyzed P–P Bond Cleavage and Addition Reactions6 Rhodium-Catalyzed P–P Bond Cleavage and Insertion Reactions Using Polyphosphines7 Conclusions
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12

Arisawa, Mieko, und Masahiko Yamaguchi. „Transition-metal-catalyzed synthesis of organosulfur compounds“. Pure and Applied Chemistry 80, Nr. 5 (01.01.2008): 993–1003. http://dx.doi.org/10.1351/pac200880050993.

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Rhodium complexes are efficient catalysts for the synthesis of organosulfur compounds. They catalyze the addition reaction of organosulfur groups to unsaturated compounds, the substitution of C-H with organosulfur groups, and single-bond metathesis reactions. They cleave S-S bonds and transfer the organosulfur groups to various organic and inorganic molecules, including alkynes, allenes, disulfides, sulfur, isonitriles, imines, diphosphines, thiophosphinites, hydrogen, 1-alkylthio-1-alkynes, thioesters, and allyl sulfides.
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13

ZABLOCKA, M., N. CENAC, A. IGAU, B. DONNADIEU, J. P. MAJORAL, A. SKOWRONSKA und P. MEUNIER. „ChemInform Abstract: Regioselective Synthesis of Tricyclic 1,1-Diphosphines.“ ChemInform 28, Nr. 14 (04.08.2010): no. http://dx.doi.org/10.1002/chin.199714142.

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14

Cazorla, Clément, Lorenzo Casimiro, Tanzeel Arif, Claire Deo, Nawel Goual, Pascal Retailleau, Rémi Métivier et al. „Synthesis and properties of photoswitchable diphosphines and gold(i) complexes derived from azobenzenes“. Dalton Transactions 50, Nr. 21 (2021): 7284–92. http://dx.doi.org/10.1039/d1dt01080h.

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15

Guillaneux, Denis, Lars Martiny und Henri B. Kagan. „Diferrocenylphosphine: A Facile Synthesis and Its Use to Prepare Chiral Phosphines“. Collection of Czechoslovak Chemical Communications 65, Nr. 5 (2000): 717–28. http://dx.doi.org/10.1135/cccc20000717.

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Diferrocenylphosphine-borane has been synthesized in three steps from monolithio- ferrocene. This compound may be transformed into the corresponding phosphide which is a nucleophilic reagent allowing to introduce the diferrocenylphosphino grouping in organic compounds. Several chiral diphosphines related to DIOP have been synthesized by this method. The corresponding rhodium complexes are catalysts in the hydrogenation of various C=C double bonds.
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16

Molitor, Sebastian, Christoph Mahler und Viktoria H. Gessner. „Synthesis and solid-state structures of gold(i) complexes of diphosphines“. New Journal of Chemistry 40, Nr. 7 (2016): 6467–74. http://dx.doi.org/10.1039/c6nj00786d.

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17

Icsel, Ceyda, Veysel T. Yilmaz, Muhittin Aygun, Buse Cevatemre, Pinar Alper und Engin Ulukaya. „Palladium(ii) and platinum(ii) saccharinate complexes with bis(diphenylphosphino)methane/ethane: synthesis, S-phase arrest and ROS-mediated apoptosis in human colon cancer cells“. Dalton Transactions 47, Nr. 33 (2018): 11397–410. http://dx.doi.org/10.1039/c8dt02389a.

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18

Yorimitsu, Hideki. „Homolytic substitution at phosphorus for C–P bond formation in organic synthesis“. Beilstein Journal of Organic Chemistry 9 (28.06.2013): 1269–77. http://dx.doi.org/10.3762/bjoc.9.143.

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Organophosphorus compounds are important in organic chemistry. This review article covers emerging, powerful synthetic approaches to organophosphorus compounds by homolytic substitution at phosphorus with a carbon-centered radical. Phosphination reagents include diphosphines, chalcogenophosphines and stannylphosphines, which bear a weak P–heteroatom bond for homolysis. This article deals with two transformations, radical phosphination by addition across unsaturated C–C bonds and substitution of organic halides.
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19

Ruiz, Javier, Víctor Riera, Marilín Vivanco, Maurizio Lanfranchi und Antonio Tiripicchio. „Metal-Assisted Synthesis of New and Highly Functionalized Diphosphines“. Organometallics 17, Nr. 18 (August 1998): 3835–37. http://dx.doi.org/10.1021/om980448x.

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20

Alder, Roger W., und David Read. „ChemInform Abstract: Medium-Ring Diphosphines: Synthesis and Transannular Chemistry“. ChemInform 30, Nr. 12 (17.06.2010): no. http://dx.doi.org/10.1002/chin.199912333.

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21

Guerrero, Miguel, Nguyet Trang Thanh Chau, Alain Roucoux, Audrey Nowicki-Denicourt, Eric Monflier, Hervé Bricout und Karine Philippot. „Organometallic synthesis of water-soluble ruthenium nanoparticles in the presence of sulfonated diphosphines and cyclodextrins“. MRS Proceedings 1675 (2014): 219–25. http://dx.doi.org/10.1557/opl.2014.888.

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ABSTRACTThe organometallic approach was successfully applied to synthesize water-soluble ruthenium nanoparticles displaying interesting catalytic properties in hydrogenation of unsaturated model-substrates. Nanocatalyst synthesis was performed by hydrogenation of the complex [Ru(COD)(COT)] in the presence of sulfonated diphosphines and cyclodextrins as protective agents providing very small ruthenium nanoparticles (ca. 1.2-1.5 nm) with narrow size distribution and high stability. Catalysis results in water evidenced a control of the surface properties of these novel ruthenium nanocatalysts at a supramolecular level.
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22

Vavasori, Andrea, Loris Calgaro, Luca Pietrobon und Lucio Ronchin. „The coupling of carbon dioxide with ethene to produce acrylic acid sodium salt in one pot by using Ni(II) and Pd(II)-phosphine complexes as precatalysts“. Pure and Applied Chemistry 90, Nr. 2 (23.02.2018): 315–26. http://dx.doi.org/10.1515/pac-2017-0706.

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Abstract The use of CO2 as a feedstock for chemical synthesis is considered as a viable alternative option to some traditional processes. One of the most interesting challenge for the industry is represented by the CO2 coupling with olefins to produce acrylate. Only recently, with the choice of suitable ligands and the use of a sacrificial base, a selective catalytic reaction was established by using Ni(0)-based complexes. The one-pot reaction, which leads to the highest TON (107 mol/mol Ni, in 20 h) reported so far, was successfully developed starting from Ni(0)-based precursors in the presence of disphosphine ligands, a large excess of base and of finely powdered zinc. In the present paper, we carried out the catalytic synthesis of sodium acrylate from CO2 and ethene, in one-pot, by using Ni(II)-chloride and Pd(II)-chloride phosphine-complexes as precatalyst. The reaction occurs under basic conditions and without adding any external reductants. The Ni(II) complexes lead to higher TON than the respective Pd(II) precursors and the best results are obtained by using diphosphines having high bite angles. Such catalysis is favored by aprotic and polar solvents in which a TON of 290 mol/mol Ni is reached by using the [NiCl2(dppp)] precursor in DMSO. Furthermore the TON could be increased by increasing the temperature, the base concentration and by using diphosphine ligands having high bite angle.
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23

Lobana, T. S., und Randhir Singh. „Synthesis of ruthenium (II) complexes containing diphosphines and 2-pyridinethiols“. Proceedings / Indian Academy of Sciences 106, Nr. 3 (Juni 1994): 797. http://dx.doi.org/10.1007/bf02911147.

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24

Longeau, Alexia, Sandrine Durand, Anja Spiegel und Paul Knochel. „Synthesis of new C2-symmetrical diphosphines using chiral zinc organometallics“. Tetrahedron: Asymmetry 8, Nr. 7 (April 1997): 987–90. http://dx.doi.org/10.1016/s0957-4166(97)00052-9.

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25

Samuels, M. C., F. J. L. Heutz, A. Grabulosa und P. C. J. Kamer. „Solid-Phase Synthesis and Catalytic Screening of Polystyrene Supported Diphosphines“. Topics in Catalysis 59, Nr. 19-20 (25.08.2016): 1793–99. http://dx.doi.org/10.1007/s11244-016-0700-1.

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26

Förstera, Daniela, Ingo Hartenbach, Martin Nieger und Dietrich Gudat. „On the Synthesis and Addition Reactions of Chiral N-Heterocyclic Diphosphines“. Zeitschrift für Naturforschung B 67, Nr. 8 (01.08.2012): 765–73. http://dx.doi.org/10.5560/znb.2012-0177.

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Reaction of chiral N-heterocyclic chlorophosphines with lithium diphenylphosphide or of achiral N-heterocyclic chlorophosphines with optically active lithium menthyl phosphide produces chiral N-heterocyclic diphosphines which can be utilized in subsequent diphosphination reactions with activated alkenes or alkynes. The reaction with alkynes proceeds stereospecifically to produce Zethylene- 1,2-bisphosphines which are readily converted to nickel(II) or palladium(II) complexes. Reactions with alkenes are synthetically less useful as the addition proceeds without any chiral induction at the newly formed stereocenters to yield inseparable mixtures of diastereomeric products. The molecular structures of chiral Z-ethylene-1,2-bisphosphine complexes and of a chiral N-heterocyclic chlorophosphine have been determined by single-crystal X-ray diffraction
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27

Noyori, Ryoji, Masatoshi Koizumi, Dai Ishii und Takeshi Ohkuma. „Asymmetric hydrogenation via architectural and functional molecular engineering“. Pure and Applied Chemistry 73, Nr. 2 (01.01.2001): 227–32. http://dx.doi.org/10.1351/pac200173020227.

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RuCl2 (phosphine) 2 (1,2-diamine) complexes, coupled with an alkaline base in 2-propanol, allows for preferential hydrogenation of a C=O function over coexisting conjugated or nonconjugated C=C linkages, a nitro group, halogen atoms, and various heterocycles. The functional group selectivity is based on the novel metal-ligand bifunctional mechanism. The use of appropriate chiral diphosphines and diamines results in rapid and productive asymmetric hydrogenation of a range of aromatic, hetero-aromatic, and olefinic ketones. The versatility of this method is manifested by the asymmetric synthesis of various biologically significant chiral compounds.
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28

Nieczypor, Piotr, Piet W. N. M. van Leeuwen, Johannes C. Mol, Martin Lutz und Anthony L. Spek. „Synthesis, structure, and metathesis activity of ruthenium carbene complexes containing diphosphines“. Journal of Organometallic Chemistry 625, Nr. 1 (April 2001): 58–66. http://dx.doi.org/10.1016/s0022-328x(00)00875-5.

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29

Kremer, Carlos, Mario Rivero, Eduardo Kremer, Leopoldo Suescun, Alvaro W. Mombrú, Raúl Mariezcurrena, Sixto Domı́nguez, Alfredo Mederos, Stefano Midollini und Alfonso Castiñeiras. „Synthesis, characterization and crystal structures of rhenium(V) complexes with diphosphines“. Inorganica Chimica Acta 294, Nr. 1 (November 1999): 47–55. http://dx.doi.org/10.1016/s0020-1693(99)00272-8.

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Diéguez, Montserrat, Oscar Pàmies, Aurora Ruiz, Sergio Castillón und Carmen Claver. „Synthesis of novel diphosphines from d-(+)-glucose. Use in asymmetric hydrogenation“. Tetrahedron: Asymmetry 11, Nr. 23 (Dezember 2000): 4701–8. http://dx.doi.org/10.1016/s0957-4166(00)00440-7.

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31

Bonnafoux, Laurence, Rafael Gramage-Doria, Françoise Colobert und Frédéric R. Leroux. „Catalytic Palladium Phosphination: Modular Synthesis of C1-Symmetric Biaryl-Based Diphosphines“. Chemistry - A European Journal 17, Nr. 39 (18.08.2011): 11008–16. http://dx.doi.org/10.1002/chem.201101529.

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32

RUIZ, J., V. RIERA, M. VIVANCO, M. LANFRANCHI und A. TIRIPICCHIO. „ChemInform Abstract: Metal-Assisted Synthesis of New and Highly Functionalized Diphosphines.“ ChemInform 30, Nr. 1 (18.06.2010): no. http://dx.doi.org/10.1002/chin.199901177.

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33

Pellon, Pascal, Celine Le Goaster und Loic Toupet. „Diastereoselective synthesis of diphosphines, effect of their configuration in asymmetric catalysis“. Tetrahedron Letters 37, Nr. 27 (Juli 1996): 4713–16. http://dx.doi.org/10.1016/0040-4039(96)00948-3.

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34

Macêdo, R. R., P. I. S. Maia, V. M. Deflon, G. F. de S. Miguel, A. E. H. Machado und G. v. Poelhsitz. „Synthesis and characterization of CIS-[Ru(DPPM)2(BTA)]PF6 (BTA– = 4,4,4-trifluoro-1-phenyl-1,3-butanedionate)“. Журнал структурной химии 64, Nr. 4 (2023): 108210. http://dx.doi.org/10.26902/jsc_id108210.

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The title complex cis-[Ru(dppm)2(bta)]PF6, dppm = 1,1-bis(diphenylphosphino)methane; bta– = 4,4,4-trifluoro-1-phenyl-1,3-butanedionate, was prepared from the cis-[RuCl2(dppm)2] precursor in mild conditions. Elemental analysis, spectroscopy (FTIR, 1H, 31P{1H} and 19F{1H} NMR) as well as single-crystal X-ray diffraction were used to characterize the new complex. Electronic structure of the complex was described utilizing TD-DFT analysis. All data indicate a good degree of purity, a cis arrangement for the diphosphines and a distorted geometry for the ruthenium center.
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35

Spiridonova, Yu S., I. A. Litvinov, E. I. Musina und A. A. Karasik. „N,O-, N,N-, N,S- AND N,N,S-HETEROCYCLES WITH AN EXOCYCLIC AMINOGROUP IN THE SYNTHESIS OF 1,5,3,7-DIAZADIPHOSPHACYCLOOCTANES“. Доклады Российской академии наук. Химия, науки о материалах 510, Nr. 1 (01.05.2023): 40–47. http://dx.doi.org/10.31857/s2686953522600386.

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New 1,5,3,7-diazadiphosphacyclooctanes with N,O-, N,N-, N,S- and N,N,S-heterocyclic substituents at nitrogen atoms were synthesized. The influence of amines containing sp2-hybridized nitrogen atom on the ortho-position of the heterocyclic substituent on the result of a Mannich condensation of primary phosphines, paraformaldehyde and primary amines is revealed. The stabilization of intermediate acyclic products – aminomethyl(hydroxymethyl)arylphosphines and bis(aminomethyl)arylphosphines due to amino-imine tautomerism is a reason of the low yield of cyclic diphosphines on the base of above mentioned amines.
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Xie, Jian-Hua, Li-Xin Wang, Yu Fu, Shuo-Fei Zhu, Bao-Min Fan, Hai-Feng Duan und Qi-Lin Zhou. „Synthesis of Spiro Diphosphines and Their Application in Asymmetric Hydrogenation of Ketones“. Journal of the American Chemical Society 125, Nr. 15 (April 2003): 4404–5. http://dx.doi.org/10.1021/ja029907i.

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37

Buhling, Armin, Jaap W. Elgersma, Steve Nkrumah, Paul C. J. Kamer und Piet W. N. M. van Leeuwen. „Novel amphiphilic diphosphines: synthesis, rhodium complexes, use in hydroformylation and rhodium recycling“. Journal of the Chemical Society, Dalton Transactions, Nr. 10 (1996): 2143. http://dx.doi.org/10.1039/dt9960002143.

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38

Ma, Meng-Lin, Zong-Hai Peng, Li Chen, Yu Guo, Hua Chen und Xian-Jun Li. „Synthesis of New MeO-BIPHEP-type Chiral Diphosphines by an Improved Way“. Chinese Journal of Chemistry 24, Nr. 10 (Oktober 2006): 1391–96. http://dx.doi.org/10.1002/cjoc.200690260.

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Tagne Kuate, Alain C., Roger A. Lalancette, Dirk Bockfeld, Matthias Tamm und Frieder Jäkle. „Palladium(0) complexes of diferrocenylmercury diphosphines: synthesis, X-ray structure analyses, catalytic isomerization, and C–Cl bond activation“. Dalton Transactions 50, Nr. 13 (2021): 4512–18. http://dx.doi.org/10.1039/d1dt00641j.

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In trigonal LPd0(dba) complexes with diastereomeric diferrocenylmercury diphosphine ligands the Pd environment and Hg⋯Pd separation are starkly different. The rates of Pd0 complex formation and their CH2Cl2 oxidative addition vary significantly.
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40

Zhao, Kai-Chun, Lei Liu, Xiao-Chao Chen, Yin-Qing Yao, Lin Guo, Yong Lu, Xiao-Li Zhao und Ye Liu. „Multiple-Functional Diphosphines: Synthesis, Characterization, and Application to Pd-Catalyzed Alkoxycarbonylation of Alkynes“. Organometallics 41, Nr. 6 (16.03.2022): 750–60. http://dx.doi.org/10.1021/acs.organomet.1c00713.

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41

Brunet, Jean-Jacques, Montserrat Gómez, Hassane Hajouji und Denis Neibecker. „CHIRAL DIPHOSPHOLES 4. SYNTHESIS AND NMR STUDY OF PHOSPHOLYL-BASED OPTICALLY ACTIVE DIPHOSPHINES“. Phosphorus, Sulfur, and Silicon and the Related Elements 85, Nr. 1-4 (Dezember 1993): 207–15. http://dx.doi.org/10.1080/10426509308038200.

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42

Morandini, Franco, und Giambattista Consiglio. „Synthesis, characterisation and stereochemistry of indenyl complexes of iridium(I) containing chiral diphosphines“. Inorganica Chimica Acta 258, Nr. 1 (Mai 1997): 77–80. http://dx.doi.org/10.1016/s0020-1693(96)05535-1.

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43

Bergamini, Paola, Giancarlo Fantin, Marco Fogagnolo, Licia Gualandi und Alessandro Medici. „New chiral diphosphines by ketalization of bile acid derivatives: synthesis and chelating properties“. Inorganic Chemistry Communications 1, Nr. 4 (April 1998): 125–27. http://dx.doi.org/10.1016/s1387-7003(98)00032-x.

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44

Diéguez, Montserrat, Oscar Pàmies, Aurora Ruiz und Carmen Claver. „Synthesis and structural studies of rhodium(I)-catalytic precursors containing two furanoside diphosphines“. Journal of Organometallic Chemistry 629, Nr. 1-2 (Juni 2001): 77–82. http://dx.doi.org/10.1016/s0022-328x(01)00819-1.

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45

Kottsieper, Konstantin W., Uwe Kühner und Othmar Stelzer. „Synthesis of enantiopure C1 symmetric diphosphines and phosphino-phosphonites with ortho-phenylene backbones“. Tetrahedron: Asymmetry 12, Nr. 8 (Mai 2001): 1159–69. http://dx.doi.org/10.1016/s0957-4166(01)00175-6.

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46

Huang, Yinhua, Sumod A. Pullarkat, Mingjun Yuan, Yi Ding, Yongxin Li und Pak-Hing Leung. „Palladium Template Promoted Asymmetric Synthesis of 1,2-Diphosphines by Hydrophosphination of Functionalized Allenes“. Organometallics 29, Nr. 3 (08.02.2010): 536–42. http://dx.doi.org/10.1021/om900829t.

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47

Morandini, Franco, Giuseppe Pilloni, Giambattista Consiglio und Antonio Mezzetti. „Synthesis and Characterization of Cationic Square-Planar Iridium(I) Complexes Containing Chiral Diphosphines“. Organometallics 14, Nr. 7 (Juli 1995): 3418–22. http://dx.doi.org/10.1021/om00007a048.

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48

Abreu, Artur R., Andreia F. Peixoto, Ana R. Almeida, Mirtha A. O. Lourenço, Ângela C. B. Neves, J. Carles Bayón und Mariette M. Pereira. „Synthesis of Chiral Bis-MOP-type Diphosphines. Chelating Effect in Nickel-catalyzed Phosphination“. Chemistry Letters 42, Nr. 1 (05.01.2013): 37–39. http://dx.doi.org/10.1246/cl.2013.37.

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49

Köllner, Christoph, und Antonio Togni. „Synthesis, characterization, and application in asymmetric catalysis of dendrimers containing chiral ferrocenyl diphosphines“. Canadian Journal of Chemistry 79, Nr. 11 (01.11.2001): 1762–74. http://dx.doi.org/10.1139/v01-145.

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Starting from the functionalized Josiphos derivatives (R)-1-[(S)-2-(diphenylphosphino)-1'-(dimethyl-3''-aminopropylsilyl)-ferrocenyl]ethyldicyclohexylphosphine ((R)-(S)-3), (R)-1-[(S)-2-(diphenylphosphino)-1'-(hydroxy methyl) ferrocenyl]ethyldicyclohexylphosphine ((R)-(S)-4), and (R)-1-[(S)-2-(diphenylphosphino)-1'-(3''-hydroxy propyl)ferrocenyl]ethyldicyclohexylphosphine ((R)-(S)-5), a series of dendrimers containing up to sixteen ferrocenyl diphosphine units were prepared. Dendrimer cores are based on benzene 1,3,5-tricarboxylic acid and 1,3,5,7-adaman tanetetracarboxylic acid, with 5-substituted isophthalic acid derivatives constituting the branching units. The dendrimers have been used in three different asymmetric catalytic reactions: Rh-catalyzed hydrogenation of dimethyl itaconate, Pd-catalyzed allylic substitution, and Rh-catalyzed hydroboration of styrene with catecholborane. In all three reactions the selectivity obtained with the dendrimers was very similar to the one obtained with the parent ligand Josiphos.Key words: dendrimer, asymmetric catalysis, ferrocenyl ligands, hydrogenation.
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50

PELLON, P., C. LE GOASTER und L. TOUPET. „ChemInform Abstract: Diastereoselective Synthesis of Diphosphines, Effect of Their Configuration in Asymmetric Catalysis.“ ChemInform 27, Nr. 41 (04.08.2010): no. http://dx.doi.org/10.1002/chin.199641165.

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