Beiträge zur Chemie des Phosphors, 73: 1,2‐Diphenyldiphosphan

Baudler, M.; Carlsohn, Burkhard; Koch, D.; Medda, P. K.

doi:10.1002/cber.19781110338

Cited by 47 publications

(10 citation statements)

References 11 publications

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“…[46,47] Literature precedent has shown disproportionation of (PhPH) 2 affords PhPH 2 , cyclic oligomers (RP) n and Ph(H)PA C H T U N G T R E N N U N G (PPh) n P(H)Ph (predominantly n = 3). [46] Upon prolonged heating three additional signals appeared which were assigned to (PPh) 4 , [48] (PPh) 5 [49] and (PPh) 6 . [48] By integration, (PPh) 5 is the major product although it is also known that (PPh) 4 and (PPh) 6 disproportionate to (PPh) 5 upon heating.…”

Section: Resultsmentioning

confidence: 99%

“…31 P NMR spectra of the reaction mixtures (Figure 1) showed resonances at d À65.1 and À68.4 ppm that were assigned to meso and racemic (PhPH) 2 . [40,45,46] In addition, a series of minor peaks located between d À35 and À70 ppm have been tentatively assigned to Ph(H)PP(Ph)P(Ph)P(H)Ph and higher oligomers Ph(H)PA C H T U N G T R E N N U N G (PPh) n P(H)Ph. [46,47] Literature precedent has shown disproportionation of (PhPH) 2 affords PhPH 2 , cyclic oligomers (RP) n and Ph(H)PA C H T U N G T R E N N U N G (PPh) n P(H)Ph (predominantly n = 3).…”

Section: Resultsmentioning

confidence: 99%

“…[40,45,46] In addition, a series of minor peaks located between d À35 and À70 ppm have been tentatively assigned to Ph(H)PP(Ph)P(Ph)P(H)Ph and higher oligomers Ph(H)PA C H T U N G T R E N N U N G (PPh) n P(H)Ph. [46,47] Literature precedent has shown disproportionation of (PhPH) 2 affords PhPH 2 , cyclic oligomers (RP) n and Ph(H)PA C H T U N G T R E N N U N G (PPh) n P(H)Ph (predominantly n = 3). [46] Upon prolonged heating three additional signals appeared which were assigned to (PPh) 4 , [48] (PPh) 5 [49] and (PPh) 6 .…”

Section: Resultsmentioning

confidence: 99%

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Catalytic PH Activation by Ti and Zr Catalysts

Masuda

Hoskin

Graham

et al. 2006

Chemistry A European J

113

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Catalytic dehydrocoupling of phosphines was investigated using the anionic zirconocene trihydride salts [Cp*2Zr(mu-H)3Li]3 (1 a) or [Cp*2Zr(mu-H)3K(thf)4] (1 b), and the metallocycles [CpTi(NPtBu3)(CH2)4] (6) and [Cp*M(NPtBu3)(CH2)4] (M=Ti 20, Zr 21) as catalyst precursors. Dehydrocoupling of primary phosphines RPH2 (R=Ph, C6H2Me3, Cy, C10H7) gave both dehydrocoupled dimers RP(H)P(H)R or cyclic oligophosphines (RP)n (n=4, 5) while reaction of tBu3C6H2PH2 gave the phosphaindoline tBu2(Me2CCH2)C6H2PH 9. Stoichiometric reactions of these catalyst precursors with primary phosphines afforded [Cp*2Zr((PR)2)H][K(thf)4] (R=Ph 2, Cy 3, C6H2Me3 4), [Cp*2Zr((PPh)3)H][K(thf)4] (5), [CpTi(NPtBu3)(PPh)3] (7) and [CpTi(NPtBu3)(mu-PHPh)]2 (8), while reaction of 6 with (C6H2tBu3)PH2 in the presence of PMe3 afforded [CpTi(NPtBu3)(PMe3)(P(C6H2tBu3)] (10). The secondary phosphines Ph2PH and (PhHPCH2)2CH2 also undergo dehydrocoupling affording (Ph2P)2 and (PhPCH2)2CH2. The bisphosphines (CH2PH2)2 and C6H4(PH2)2 are dehydrocoupled to give (PCH2CH2PH)2)(12) and (C6H4P(PH))2 (13) while prolonged reaction of 13 gave (C6H4P2)(8) (14). The analogous bisphosphine Me2C6H4(PH)2 (17) was prepared and dehydrocoupling catalysis afforded (Me2C6H2P(PH))2 (18) and subsequently [(Me2C6H2P2)2(mu-Me2C6H2P2)]2 (19). Stoichiometric reactions with these bisphosphines gave [Cp*2Zr(H)(PH)2C6-H4][Li(thf)4] (22), [CpTi(NPtBu3)(PH)2C6H4]2 (23) and [Cp*Ti(NPtBu3)(PH)2C6H4] (24). Mechanistic implications are discussed.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Catalytic PH Activation by Ti and Zr Catalysts

Masuda

Hoskin

Graham

et al. 2006

Chemistry A European J

113

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“…[33] Cy: δ ϭϪ68.3 (s, PCy) 4 , Ϫ84.3 and Ϫ87.5 (m, rac-and meso-P 2 H 2 Cy 2 ), [29] Ϫ111.0 (t, PH 2 Cy) ppm. [29,34] Ϫ67.4, Ϫ70.9 (m, meso-and rac-P 2 H 2 Ph 2 ; the signal for the unstable diphosphane disappears after two days), [35,36] Ϫ122.1 (t, PH 2 Ph) ppm. 13 13 (20 mL) was cooled to Ϫ70°C, and one equivalent of LiPHMes (0.15 g, 0.98 mmol) was added to the stirred reaction mixture over 3 h. The resulting suspension was stirred at Ϫ70°C for 2 h, and then slowly warmed to room temperature and stirred overnight.…”

Section: Generalmentioning

confidence: 99%

Syntheses, Crystal Structures and Reactivity of Organometallic Tantalum(IV) Phosphinidene Complexes: trans-[{CpTaCl(μ-PR)}2] (Cp = C5Me5, R = Cy, tBu, Ph), cis- and trans-[{Cp*TaCl(μ-PMes)}2] (Mes = 2,4,6-Me3C6H2) and cis-[{Cp′TaCl(μ-PMes)}2] (Cp′ = C5H4Me)

Blaurock¹,

Hey‐Hawkins²

2002

Eur. J. Inorg. Chem.

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“…Als K ronenether-N atrium salz haben die beiden D iastereo m eren 2 fast gleich große PP-K opplungskonstanten. In gleicher G rö ß e w ird '/pp auch für die beiden diastereo m eren D iphosp h an e H -P h P -P h P -H [13] und für die threo/threo- Die Gleichgewichte (b) der zugehörigen N eutral verbindungen tendieren natürlich noch weiter nach links; ein Cyclopentadienylphosphan lagert dem ent sprechend nicht ins Phosphonium-ylid um [26,27].…”

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Phosphinocyclopentadienid via Cyclopentadienylphosphid/ Phosphinocyclopentadienide via Cyclopentadienylphosphide

Schmidpeter

Zirzow

1987

Zeitschrift Für Naturforschung B

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AbstractLithiumorganyls RLi (R = Me, Bu, Ph) add to (PhP)5 in successive degradation and disproportionation equilibria depending on the ratio of the reactants. At -70 °C (R = Me) disproportionation is blocked and (PhP)4R- and (PhP)3R- can be detected. With excess RLi m onophosphides PhPR- are formed. CpNa with the help of a crown ether degrades (PhP)5 or substitutes cyanide from PhPCN- to give an equilibrium mixture of (PhP)nCp- anions, which stabilize by proton shifts: In case of n = 1 and 2 a shift from the Cp unit to the terminal phosphorus results in the formation of the phenylphosphino- and diphenyldiphosphino-cyclopentadienide anion, in case of n = 3 two proton shifts within the Cp unit result in a cyclopenteno-l,2,3-triphospholene allylic anion.

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Beiträge zur Chemie des Phosphors, 73: 1,2‐Diphenyldiphosphan

Cited by 47 publications

References 11 publications

Catalytic PH Activation by Ti and Zr Catalysts

Catalytic PH Activation by Ti and Zr Catalysts

Syntheses, Crystal Structures and Reactivity of Organometallic Tantalum(IV) Phosphinidene Complexes: trans-[{CpTaCl(μ-PR)}2] (Cp = C5Me5, R = Cy, tBu, Ph), cis- and trans-[{Cp*TaCl(μ-PMes)}2] (Mes = 2,4,6-Me3C6H2) and cis-[{Cp′TaCl(μ-PMes)}2] (Cp′ = C5H4Me)

Phosphinocyclopentadienid via Cyclopentadienylphosphid/ Phosphinocyclopentadienide via Cyclopentadienylphosphide

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Beiträge zur Chemie des Phosphors, 73: 1,2‐Diphenyldiphosphan

Cited by 47 publications

References 11 publications

Catalytic PH Activation by Ti and Zr Catalysts

Catalytic PH Activation by Ti and Zr Catalysts

Syntheses, Crystal Structures and Reactivity of Organometallic Tantalum(IV) Phosphinidene Complexes: trans-[{Cp*TaCl(μ-PR)}2] (Cp* = C5Me5, R = Cy, tBu, Ph), cis- and trans-[{Cp*TaCl(μ-PMes)}2] (Mes = 2,4,6-Me3C6H2) and cis-[{Cp′TaCl(μ-PMes)}2] (Cp′ = C5H4Me)

Phosphinocyclopentadienid via Cyclopentadienylphosphid/ Phosphinocyclopentadienide via Cyclopentadienylphosphide

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Syntheses, Crystal Structures and Reactivity of Organometallic Tantalum(IV) Phosphinidene Complexes: trans-[{CpTaCl(μ-PR)}2] (Cp = C5Me5, R = Cy, tBu, Ph), cis- and trans-[{Cp*TaCl(μ-PMes)}2] (Mes = 2,4,6-Me3C6H2) and cis-[{Cp′TaCl(μ-PMes)}2] (Cp′ = C5H4Me)