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Phosphorus and Sulfur and the Related Elements Volume 36, 1988 - Issue 3-4
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Original Articles

THE CHEMICAL SHIFT OF TWO-COORDINATE PHOSPHORUS, II1,2 HETEROCYCLES

Konstantin Karaghiosoff Institut für Anorganische Chemie der Universität München, Meiserstraße 1, D-8000, München 2
&
Alfred Schmidpeter Institut für Anorganische Chemie der Universität München, Meiserstraße 1, D-8000, München 2
Pages 217-259 | Received 09 Oct 1987, Published online: 03 Jan 2007

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M. Regitz & S. Krill. (1996) 1,2,4-SELENADIPHOSPHOLES—NOVEL HETEROCYCLIC COMPOUNDS CONTAINING LOW-COORDINATED PHOSPHORUS ATOMS1 . Phosphorus, Sulfur, and Silicon and the Related Elements 115:1, pages 99-103.
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A. Schmidpeter, R.K. Bansal, K. Karaghiosoff, F. Steinmüller & C. Spindler. (1990) Azaphospholes1,2: State and Advances. Phosphorus, Sulfur, and Silicon and the Related Elements 49-50:1-4, pages 349-354.
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Articles from other publishers (51)

Robin Schoemaker, Kai Schwedtmann, Felix Hennersdorf, Antonio Bauzá, Antonio Frontera & Jan J. Weigand. (2020) Toward N,P-Doped π-Extended PAHs: A One-Pot Synthesis to Diannulated 1,4,2-Diazaphospholium Triflate Salts. The Journal of Organic Chemistry 85:22, pages 14420-14434.
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Yury Yu. Rusakov, Irina L. Rusakova, Valentin A. Semenov, Dmitry O. Samultsev, Sergei V. Fedorov & Leonid B. Krivdin. (2018) Calculation of 15 N and 31 P NMR Chemical Shifts of Azoles, Phospholes, and Phosphazoles: A Gateway to Higher Accuracy at Less Computational Cost . The Journal of Physical Chemistry A 122:33, pages 6746-6759.
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Joachim W. Heinicke. (2015) Electron‐Rich Aromatic 1,3‐Heterophospholes – Recent Syntheses and Impact of High Electron Density at σ 2 P on the Reactivity . European Journal of Inorganic Chemistry 2016:5, pages 575-594.
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Sergey V. Fedorov, Yury Yu. Rusakov & Leonid B. Krivdin. (2014) Towards the versatile DFT and MP2 computational schemes for 31 P NMR chemical shifts taking into account relativistic corrections . Magnetic Resonance in Chemistry 52:11, pages 699-710.
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Rajendra K. Jangid, Neelima Gupta, Raj K. Bansal, Moritz von Hopffgarten & Gernot Frenking. (2011) Diels–Alder reaction of 2-phosphaindolizines catalysed by organoaluminium reagent: theoretical and experimental results. Tetrahedron Letters 52:14, pages 1721-1724.
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K. Karaghiosoff. 2008. Comprehensive Heterocyclic Chemistry III. Comprehensive Heterocyclic Chemistry III 1155 1167 .
Raj K. Bansal. 2009. Phosphorous Heterocycles I. Phosphorous Heterocycles I 1 30 .
Konstantin Karaghiosoff. 2007. Encyclopedia of Magnetic Resonance. Encyclopedia of Magnetic Resonance.
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R. K. Bansal & J. Heinicke. (2001) Anellated Heterophospholes and Phospholides and Analogies with Related Non-Phosphorus Systems. Chemical Reviews 101:11, pages 3549-3578.
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Alfred Schmidpeter. 2001. Phosphorus-Carbon Heterocyclic Chemistry. Phosphorus-Carbon Heterocyclic Chemistry 363 461 .
Lothar Weber. (2000) Phosphaalkenes with Inverse Electron Density. European Journal of Inorganic Chemistry 2000:12, pages 2425-2441.
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Raj K. Bansal, Anushka Surana & Neelima Gupta. (1999) 2-Phosphaindolizines via 1,5-electrocyclization. Tetrahedron Letters 40:8, pages 1565-1568.
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D.B. Chesnut & L.D. Quin. 1999. Advances in Molecular Structure Research Volume 5. Advances in Molecular Structure Research Volume 5 189 222 .
Raj K. Bansal, Leena Hemrajani & Neelima Gupta. (1999) 1,3-azaphospholo[5,1-a]isoquinolines. Heteroatom Chemistry 10:7, pages 598-604.
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Alfred Schmidpeter. (1999) Molecules that we made: An essay on phosphorus chemistry. Heteroatom Chemistry 10:7, pages 529-537.
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Victoria A. Jones, Sarin Sriprang, Mark Thornton-Pett & Terence P. Kee. (1998) Chiral phosphorus(III) triflates. On the nature of the phosphorus–oxygen interaction. Journal of Organometallic Chemistry 567:1-2, pages 199-218.
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Neelima Gupta, Chandra B. Jain, Joachim Heinicke, Raj K. Bansal & Peter G. Jones. (1998) Complexes of Azaphospholes: Synthesis and Structure of Pentacarbonyl-(η1)-2-phosphaindolizine)chromium(0), -molybdenum(0), and -tungsten(0). European Journal of Inorganic Chemistry 1998:8, pages 1079-1086.
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R. R. Gupta & M. Jain. 1997. Chemical Shifts and Coupling Constants for Boron-11 and Phosphorus-31. Chemical Shifts and Coupling Constants for Boron-11 and Phosphorus-31 132 224 .
R. R. Gupta & M. Jain. 1997. Chemical Shifts and Coupling Constants for Boron-11 and Phosphorus-31. Chemical Shifts and Coupling Constants for Boron-11 and Phosphorus-31 1 23 .
Edgar Ocando‐Mavarez, Gonzalo Martin, Leonardo Rodriguez & Wasdin Muñoz. (1998) On the transition state of the thermal propene elimination from allylphosphines. Heteroatom Chemistry 8:2, pages 97-102.
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Ekkehard Lindner, Elke Bosch, Ca¨cilia Maichle-Mo¨βmer & Ulrich Abram. (1996) Preparation properties, and reactions of metal-containing heterocycles XCIV. Manganese-induced synthesis and crystal structure of 3,5-di(adamant-1-yl)-1-thia-2,4-diphosphole. Journal of Organometallic Chemistry 524:1-2, pages 67-70.
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. 1996. Comprehensive Heterocyclic Chemistry II. Comprehensive Heterocyclic Chemistry II 685 794 .
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D. B. Chesnut & E. F. C. Byrd. (1996) The inclusion of correlation in the calculation of phosphorus NMR chemical shieldings. Heteroatom Chemistry 7:5, pages 307-312.
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Konstantin Karaghiosoff, Cornelia Cleve, Alfred Schmidpeter, Ruchi Mahnot, Neelam Gandhi & Raj K. Bansal. (2006) 1,4,2‐Diazaphospholothiazoles and ‐pyridines by a Hantzsch‐Type Condensation Using Chloromethyldichlorophosphane. Chemische Berichte 128:6, pages 581-587.
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Alfred Schmidpeter, Heinrich Nöth, Georg Jochem, Hans‐Peter Schrödel & Konstantin Karaghiosoff. (2006) Ylidyl‐dihalogenphosphane – Strukturbilder einer sich anbahnenden Dissoziation. Chemische Berichte 128:4, pages 379-393.
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Graziano Baccolini, Giorgio Orsolan & Elisabetta Mezzina. (1995) Benzothiadiphosphole as phosphorus donating reagent for a new route to 2H-1,2,3-diazaphosphole derivatives. Tetrahedron Letters 36:3, pages 447-450.
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Hans Bock & Martin Bankmann. (2004) Gasphasen‐Reaktionen. 92. Thermische HCl‐Abspaltung aus Alkyldichlorphosphanen (H 3 C/H) 3 CPCl 2 zu Phosphaalkenen (H 3 C/H) 2 CPCl und Phosphaalkinen (H 3 C/H)C≡P . Zeitschrift für anorganische und allgemeine Chemie 620:3, pages 418-430.
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G. Becker & K. Hübler. (2004) Alkylidinphosphane und ‐arsane. I [P ≡ CS] − [Li(dme) 3 ] + – Synthese und Struktur . Zeitschrift für anorganische und allgemeine Chemie 620:3, pages 405-417.
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Uwe Bergsträßer, Jörg Stannek & Manfred Regitz. (1994) Azaphosphaullazines: 14π-annulenes containing λ 3 σ 2 -phosphorus . J. Chem. Soc., Chem. Commun.:9, pages 1121-1122.
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Raj K. Bansal, Konstantin Karaghiosoff & Alfred Schmidpeter. (1994) Anellated heterophospholes. Tetrahedron 50:26, pages 7675-7745.
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Ekkehard Lindner, Tilman Schlenker & Cornelius Haase. (1994) Darstellung und Eigenschaften von und Reaktionen mit metallhaltigen Heterocyclen. Journal of Organometallic Chemistry 464:1, pages C31-C32.
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Thomas Wegmann, Michael Hafner & Manfred Regitz. (2006) Organophosphorverbindungen, 73. Der Tri‐ tert ‐butyl‐2‐cyclopropen‐1‐yl‐Rest als kinetisch stabilisierende Gruppe für 1‐Aza‐3‐phosphaallene . Chemische Berichte 126:11, pages 2525-2530.
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Raj K. Bansal, Neelima Gupta, Vijaya Kabra, Claudia Spindler, Konstantin Karaghiosoff & Alfred Schmidpeter. (2004) Substitution of 2‐phosphaindolizines by bromine and by chlorophosphines. Heteroatom Chemistry 3:4, pages 359-366.
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Joseph Grobe, Due Le Van, Marianne Hegemann, Bernt Krebs & Mechtild Läge. (2006) Reaktive E = C(p—p)π‐Systeme, XXXI Erste Vertreter aminosubstituierter 1,2,4‐Diazaphosphole. Chemische Berichte 125:2, pages 411-414.
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L.I. Belen'Kii & N.D. Kruchkovskaya. 1992. Advances in Heterocyclic Chemistry Volume 55. Advances in Heterocyclic Chemistry Volume 55 31 128 .
Igor A. Litvinov, Konstantin Karaghiosoff, Alfred Schmidpeter, Elena Y. Zabotina & Evelina N. Dianova. (1991) 2-Aminopyridiniomethylphosphonite: A hydrogen-bonded polymer from the hydrolysis of 1,3,4-diazaphospholo[1,2-a]pyridine. Heteroatom Chemistry 2:3, pages 369-376.
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Raj K. Bansal, Neelima Gupta, Konstantin Karaghiosoff, Alfred Schmidpeter & Claudia Spindler. (2006) 2‐Phosphaindolizines. Chemische Berichte 124:3, pages 475-480.
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Alfred Schmidpeter & Martin Thiele. (1991) Diphosphonio Isophosphindoles, Phospholes with a Planar Phosphorus. Angewandte Chemie International Edition in English 30:3, pages 308-310.
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Alfred Schmidpeter & Martin Thiele. (2006) Diphosphonio‐isophosphindole, Phosphole mit planar umgebenem Phosphor. Angewandte Chemie 103:3, pages 333-335.
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U. Fleischer, W. Kutzelnigg, H.-H. Limbach, G. J. Martin, M. L. Martin & M. SchindlerWerner Kutzelnigg, Ulrich Fleischer & Michael Schindler. 1991. Deuterium and Shift Calculation. Deuterium and Shift Calculation 165 262 .
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Hans Bock & Martin Bankmann. (2003) Water Elimination from Phosphorus–Oxygen Compounds: The Formation of 2‐Phosphapropene by Thermolysis of Dimethylphosphane Oxide. Angewandte Chemie International Edition in English 28:7, pages 911-912.
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Hans Bock & Martin Bankmann. (2006) Wasser‐Abspaltung aus Phosphor‐Sauerstoff‐Verbindungen: Die Thermolyse von Dimethylphosphanoxid zu 2‐Phosphapropen. Angewandte Chemie 101:7, pages 950-952.
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K. KARAGHIOSOFF & A. SCHMIDPETER. (1988) ChemInform Abstract: The Chemical Shift of Two-Coordinate Phosphorus. Part 2. Heterocycles. ChemInform 19:45.
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