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H. Allcock, R. Prange, Thomas Hartle (2001)
Poly(phosphazene−ethylene oxide) Di- and Triblock Copolymers as Solid Polymer ElectrolytesMacromolecules, 34
H. Allcock, W. Coggio (1993)
Synthesis and properties of high polymeric phosphazenes with (trimethylsilyl)methyl side groupsMacromolecules, 26
H. Allcock, R. Ravikiran, S. O'connor (1997)
Effect of oligo(ethyleneoxy)cyclotriphosphazenes, tetraglyme, and other small molecules on the ionic conductivity of the poly[bis(methoxyethoxyethoxy)phosphazene] (MEEP)/lithium triflate systemMacromolecules, 30
H. Allcock, C. Chu (1979)
The Reaction of Phenyllithium with Poly-(Dichlorophosphazene).Macromolecules, 12
P. Harris, M. Schwalke, Vicky Liu, B. Fisher (1983)
Phosphazenes. 2. Synthesis of ketone- and enol-substituted cyclotriphosphazenesInorganic Chemistry, 22
H. Allcock, P. Harris, R. Nissan (1981)
Organometallic phosphazenes: synthesis and rearrangement of propynyl- and propadienylcyclotriphosphazenesJournal of the American Chemical Society, 103
H. Allcock, N. Tollefson, R. Arcus, R. Whittle (1985)
Conformation, bonding, and flexibility in short-chain linear phosphazenesJournal of the American Chemical Society, 107
H. Allcock, D. Ngo, M. Parvez, R. Whittle, W. Birdsall (1991)
Syntheses and structures of cyclic and short-chain linear phosphazenes bearing 4-phenylphenoxy side groupsJournal of the American Chemical Society, 113
H. Allcock, P. Harris (1979)
Formation of hydridocyclotriphosphazenes via the reactions of organocopper reagents with halocyclotriphosphazenes. Reaction mechanismJournal of the American Chemical Society, 101
H. Allcock, D. Patterson, T. Evans (1977)
Synthesis of Alkyl and Aryl Phosphazene High PolymersChemInform, 8
R. Prange, H. Allcock (1999)
Telechelic syntheses of the first phosphazene siloxane block copolymersMacromolecules, 32
P. Harris, J. Desorcie, H. Allcock (1981)
Formation of bicyclic phosphazenes via the reactions of methyl- and phenyl-magnesium chloride with hexachlorocyclotriphosphazeneJournal of The Chemical Society, Chemical Communications
C. Allen, T. Moeller (1968)
Aryl-substituted phosphonitrilic fluorides. II. The reaction of aryllithium reagents with trimeric phosphonitrilic fluorideInorganic Chemistry, 7
A. Mareček (1990)
The reaction of Cl3P=N-P(O)Cl2 with mercaptansCollection of Czechoslovak Chemical Communications, 55
P. Harris, K. Williams, B. Fisher (1984)
Phosphazenes. IV: Synthesis and spectral characteristics of a series of 1-aryl-1-alkyltetrachlorocyclotriphosphazenesJournal of Organic Chemistry, 49
H. Allcock, C. Crane, C. Morrissey, M. Olshavsky (1999)
A NEW ROUTE TO THE PHOSPHAZENE POLYMERIZATION PRECURSORS, CL3P=NSIME3 AND (NPCL2)3Inorganic Chemistry, 38
Zeynel Kılıçc, N. Gündüz, M. Yıldız, Adem Kılıçc, S. Mor, F. Ercan, T. Hökelek, D. Ülkü (1994)
Aminolysis of P‐trichloro‐N‐dichlorophosphorylmonophosphazene and the crystal structure of 1‐(dichlorophosphinyl)‐2‐chloro‐2,2‐bis(diisopropylamino)phosphazeneHeteroatom Chemistry, 5
R. Shaw (1988)
Isomerisations and tautomerism in phosphazene chemistryJournal of Organometallic Chemistry, 341
H. Allcock, J. Desorcie, Linda Wagner (1985)
REACTIONS BETWEEN ALKYL GRIGNARD REAGENTS AND AMINOPHOSPHAZENES: SYNTHESIS OF ALKYLCHLOROCYCLOTRIPHOSPHAZENESInorganic Chemistry, 24
H. Allcock, P. Harris, M. Connolly (1981)
SYNTHESIS OF ALKYLPHOSPHAZENES VIA COPPER-PHOSPHAZENE INTERMEDIATESChemInform, 12
N. Paddock, T. Ranganathan, S. Todd (1971)
Reaction of Methyl-lithium with Phosphonitrilic Fluorides: a Novel Orientation PatternCanadian Journal of Chemistry, 49
R. Shaw (1980)
Aspects of cyclic and acyclic phosphorus-nitrogen compoundsPure and Applied Chemistry, 52
K. Xu, C. Angell (2000)
Effect of N-substituents on protonation chemistry of trichlorophosphazenesInorganica Chimica Acta, 298
F. Belaj (1993)
Structure of N-(dichlorophosphinoyl)phosphorimidic trichloride, Cl3PNP(O)Cl2, at 100 KActa Crystallographica Section B-structural Science, 49
A. Kilic, S. Begeç, Z. Kılıç, T. Hökelek (2000)
Phosphorus–nitrogen compounds: Part V. Phenolysis of p-trichloro-n-dichlorophosphorylmonophosphazene and the crystal structure of 1-(dichlorophosphinyl)-2-chloro-2,2-bis(2,4,6-tri-tert-butylphenoxy)phosphazeneJournal of Molecular Structure, 516
S. Karthikeyan, R. Neilson (1999)
Synthesis of Some P-Trifluoromethyl-Substituted (Silylamino)phosphines, N-Silylphosphoranimines, and Phosphazenes.Inorganic chemistry, 38 9
J. Emsley, Joyce Moore, P. Udy (1971)
A new and simple method of preparing dichlorophosphinylphosphorimidic trichlorideJournal of The Chemical Society A: Inorganic, Physical, Theoretical
H. Allcock, Walter Laredo, Christine deDenus, Jonathan Taylor (1999)
Ring-opening metathesis polymerization of phosphazene-functionalized norbornenesMacromolecules, 32
H. Allcock, J. Desorcie, G. Riding (1987)
The organometallic chemistry of phosphazenesPolyhedron, 6
C. Allen (1970)
The reaction of phenylmagnesium bromide with trimeric phosphonitrilic fluorideJournal of The Chemical Society D: Chemical Communications
C. Reed, Jonathan Taylor, K. Guigley, M. Coleman, H. Allcock (2000)
Polyurethane/poly[bis(carboxylatophenoxy)phosphazene] blends and their potential as flame-retardant materialsPolymer Engineering and Science, 40
P. Harris, Cindy Fadeley (1983)
Phosphazenes. 1. Reactions of hexachlorocyclotriphosphazene with methyllithiumInorganic Chemistry, 22
H. Allcock, R. Prange (2001)
Properties of Poly(phosphazene−siloxane) Block Copolymers Synthesized via Telechelic Polyphosphazenes and Polysiloxane PhosphoraniminesMacromolecules, 34
G. Bulloch, R. Keat (1979)
Aminolysis reactions of 1-dichlorophosphinyl-2,2,2-trichlorophosphazene, Cl2P(O)·NPCl3Inorganica Chimica Acta, 33
S. Förster, E. Krämer (1999)
Synthesis of PB-PEO and PI-PEO block copolymers with alkyllithium initiators and the phosphazene base t-BuP4.Macromolecules, 32
R. Shaw, B. Fitzsimmons, B. Smith (1962)
The Phosphazenes (Phosphonitrilic Compounds).Chemical Reviews, 62
T. Evans, H. Allcock (1981)
Poly(difluorophosphazene): A New Intermediate for the Synthesis of Poly(organophosphazenes)Journal of Macromolecular Science, Part A, 16
A. KiliÇ, Z. Kılıç, R. Shaw (1991)
PHOSPHORUS-NITROGEN COMPOUNDS. PART 70.1 AMINOLYSIS OF P-TRICHLORO-N-DICHLOROPHOSPHORYLMONOPHOSPHAZENE, C13P=N-P(O)Cl2Phosphorus Sulfur and Silicon and The Related Elements, 56
The reactions of N‐dichlorophosphoryl‐P‐trichlorophosphazene (Cl3PNPOCl2) with phenylmagnesium chloride, o‐tolylmagnesium chloride, p‐tolylmagnesium chloride, p‐chlorophenylmagnesium chloride, 2‐mesitylmagnesium bromide, and 2‐thienyl lithium were studied. The resulting pentaaryl phosphazenes R3PNP(O)R2 were separated by using column chromatography, their structures were defined by IR, elemental analysis, 1H, 13C, 31P NMR, and mass spectroscopy. © 2003 Wiley Periodicals, Inc. Heteroatom Chem 14:138–143, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/hc.10114
Heteroatom Chemistry – Wiley
Published: Jan 1, 2003
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