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  • 1
    Electronic Resource
    Electronic Resource
    Magnetic-field-effect three-terminal device based on YBa2Cu3O7−δ grain boundary junctions (1994)
    [S.l.] : American Institute of Physics (AIP)
    Journal of Applied Physics 75 (1994), S. 1843-1845 
    Details
    ISSN: 1089-7550
    Source: AIP Digital Archive
    Topics: Physics
    Notes: Three-terminal YBa2Cu3O7−δ thin film devices based on a parallel array of grain boundary Josephson junctions were fabricated. The multiloop superconducting device is controlled by the magnetic field generated by a current Ictrl, which modulates the critical current Ic through the Josephson junction array. For these devices a current gain ranging between 2 at 77 K and 5 at 30 K was obtained. The spatial homogeneity of the device properties was studied by low-temperature scanning electron microscopy and by the determination of the supercurrent correlation function. Comparing the measured and the theoretically expected supercurrent correlation function shows that the device characteristics agree well with those expected from the device geometry.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.356326
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  • 2
    Electronic Resource
    Electronic Resource
    Distribution of the critical current density and flux trapping in YBa2Cu3O7−δ ramp-edge Josephson junctions (1994)
    Woodbury, NY : American Institute of Physics (AIP)
    Applied Physics Letters 64 (1994), S. 241-243 
    Details
    ISSN: 1077-3118
    Source: AIP Digital Archive
    Topics: Physics
    Notes: We have studied the spatial distribution of the critical current density in YBa2Cu3O7−δ ramp edge Josephson junctions using low-temperature scanning electron microscopy. Applying this technique allows the imaging of the critical current density distribution with a spatial resolution of about 1 μm. Our measurements show that the geometry of the ramp-edge junction eases the trapping of magnetic flux quanta in the YBa2Cu3O7−δ layer covering the ramp edge. These trapped flux quanta result in a spatially inhomogeneous magnetic field parallel to the barrier layer, which in turn results in a spatially modulated supercurrent density and an unusual magnetic field dependence of the critical current.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.111516
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  • 3
    Electronic Resource
    Electronic Resource
    IR-Spectroscopic investigations on phosphated galvanized steel (1994)
    Springer
    Microchimica acta 116 (1994), S. 101-109 
    Details
    ISSN: 1436-5073
    Keywords: infrared spectroscopy ; infrared reflection spectroscopy ; FT-IR ; conversion coating ; phosphate coating ; galvanized steel ; hopeite ; phosphophyllite
    Source: Springer Online Journal Archives 1860-2000
    Topics: Chemistry and Pharmacology
    Notes: Abstract Hopeite-type phosphate coatings in which zinc is replaced by other metals like nickel, manganese and magnesium are of great interest as conversion coatings on galvanized steel in the automotive and appliance industries. The analytical characterization of such coatings produced in special processes is not possible by XRD because the different types of hopeite are isomorphic. In this paper it is shown that the kind of metal substitution is responsible for certain specific features in the infrared reflection spectra. Furthermore the structural changes caused by dehydration due to heating of the coatings were studied and differences in the thermal stability of the different coatings thus could be observed.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF01244068
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  • 4
    Electronic Resource
    Electronic Resource
    Neuronal and endothelial nitric oxide synthase immunoreactivity and NADPH-diaphorase staining in rat and human pancreas: influence of fixation (1994)
    Springer
    Histochemistry and cell biology 102 (1994), S. 353-364 
    Details
    ISSN: 1432-119X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Abstract In this study, we wished to clarify the distribution and co-localization of nitric oxide synthase and NADPH-diaphorase (NADPH-d) in nerve cells, nerve fibres and parenchymal cells in exocrine and endocrine pancreas, and to assess the influence of fixation on the staining pattern obtained. For this purpose, we applied nitric oxide synthase immunocytochemistry and NADPH-d histochemistry to rat and human pancreas under different fixation conditions. Antibodies to neuronal and endothelial nitric oxide synthase were similarly applied. We found complete co-localization of neuronal nitric oxide synthase and NADPH-d in ganglion cells, and in nerve fibres around acini, excretory ducts, blood vessels and in islets of Langerhans of rat and human pancreas. Immunoreactivity for endothelial nitric oxide synthase was co-localized with NADPH-d in endothelial cells. However, in NADPH-d reactive islet and ductal epithelial cells we could detect neither brain nor endothelial nitric oxide synthase immunoreactivity with any fixation protocol applied. There were marked differences in NADPH-d staining of both neurons and parenchymal cells under different fixation conditions. These results indicate the existence of different types of NADPH-d, which are associated or not associated with nitric oxide synthase(s), and which are differently influenced by various fixation procedures in rat and human pancreas.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00268906
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  • 5
    Electronic Resource
    Electronic Resource
    Localization of nitric oxide synthase immunoreactivity in mast cells of human nasal mucosa (1994)
    Springer
    Histochemistry and cell biology 102 (1994), S. 89-92 
    Details
    ISSN: 1432-119X
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Abstract Nitric oxide (NO)-synthase immunoreactivity has been detected for the first time in mast cells of human normal nasal mucosa, with an antibody specific for neuronal NO-synthase. Intense immunoreactivity was revealed in secretion granules of mast cells but was found in mast cell granules free in the extracellular matrix only in some instances; no reactivity was found in the cytoplasm of this or other cell types. These findings suggest that human nasal mast cells contain a particulate isoform of NO-synthase, which shares epitopes with neuronal NO-synthase and is rapidly removed from granules upon exocytosis.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00269011
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  • 6
    Electronic Resource
    Electronic Resource
    Komplexchemie at P-reicher Phosphane und Silylphosphane. VI. Bildung und Struktur der Chromcarbonylkomplexe des Tris(trimethylsilyl) heptaphosphanortricyclans (Me3Si)3P7 (1992)
    Weinheim : Wiley-Blackwell
    Zeitschrift für anorganische Chemie 608 (1992), S. 7-16 
    Details
    ISSN: 0044-2313
    Keywords: Cr carbonyl complexes of Tris(trimethylsilyl)heptaphosphanortricyclene; ; (Me3Si)3P7[Cr(CO)5]1-3; ; (Me3Si)3P7[Cr(CO)5][Cr(CO)4]; ; (Me3Si)3P7[Cr(CO)5]2 × [Cr(CO)4]; ; (Me3Si)3P7[Cr(CO)5]3[Cr(CO)4] ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Formation and Structures of Chromium Carbonyl Complexes of Tris(trimethylsily)heptanortricyclane (Me3Si)3P7(Me3Si)3P7 1 reacts with one equivalent of Cr(Co)5THF 2 to give the yellow (Me3Si)3P7[Cr(Co)5]4. The Cr(Co)5group is attached to a Pe atom. Yellow (Me3Si)3P7[Cr(CO)5]2 5 is obtained either from reacting 1 with two equivalents of 2, or from 4 with one equivalent of 2. One Cr(CO)5 groups in 5 is coordinated to a Pe atom, the other one to a P,b atom. Similarly, Yellow (Me3Si)3P7[Cr(CO)5]3 6 results from reacting 5 with one equivalent of 2. Two Cr(CO)5 groups in 6 are linked to Pb atoms, and the third one either to a Pe or the Pa atom (assignment not completely clear).Derivatives containing a Pe bridge appear in reactions of 1 with higher amounts of 2. Such, 5 forms mixtures of the red compounds (Me3Si)3P7 × [Cr(CO)5]2[Cr(CO)4] 8 and (Me3Si)3P7[Cr(CO)5] × [Cr(CO)4] 9, and even preferably 9 with four equivalents of 2. In 8, one Cr(CO)5 group is attached to that pe atom which is not engaged in the Cr(CO)4 bridge, and the second to one of the Pb atoms directly adjacent to the bridge. The additional Cr(CO)5 group in 9 is coordinated to the remaining Pb atom directly adjacent to the bridge. In reactions of 5 with even higher amounts of 2, four Cr(CO)5 groups and one Cr(CO)4 bridge attach to the basic P7 skeleton to from the less stable Me3P7[Cr(CO)5]4[Cr(CO)4]. (Me3Si)3P7 1 reacts considerably slower with Cr(CO)5THF 2 than R3P7 (R = Et, iPr).Cr(CO)4NBD 3 reacts with 1, but it was not possible to isolate (Me3Si)3P7[Cr(CO)4]. However, 4 with 3 forms (Me3Si)3P7[Cr(CO)5][Cr(CO)4] 7, and 5 with 3 yields (Me3Si)3P7[Cr(CO)5]2[Cr(CO)4] 8.The structures of 4, 5, 7, 8 or 9 are quite analogous to those of the derivatives of Et3P7 but there exist significant differences in stability and reactivity. While Et3P7[Cr(CO)5]2 in solution rearranges to give the stable Et3P7[Cr(CO)5][Cr(CO)4], the analogous (Me3Si)3P7[Cr(CO)5][Cr(CO)4] 7 is not stable and is not obtained from (Me3Si)3P7[Cr(CO)5]2 5. Et3P7[Cr(CO)5]3 can just be detected spectroscopically and rearranges easily to give Et3P7[Cr(CO)5]2 [Cr(CO)4] whereas (Me3Si)3P7[Cr(CO)5]3 6 can be isolated. These differences are caused by the greater steric requirements of Me3Si groups. The formation of a Pe-Cr(CO)4-Pe bridge, e.g., requires a Me3Si group in 1 to switch from the s to the as position.Whereas many of the complex compounds of R3P7 (R = Et, iPr) crystallize easily, the analogous derivatives of (Me3Si)3P7 did not yield crystals. The structures of the products were assigned by evaluating the coordination shift in their 31P NMR spectra and by comparision of these spectra with those of such derivatives of Et3P7 which previously had been investigated by single crystal structure determinations.
    Notes: (Me3Si)3P7 1 bildet mit einem Mol Cr(CO)5THF2 (Me3Si)3P7[Cr(CO)5] 4 (gelb), in dem die Cr(CO)5-Gruppe an einem Pe-Atom gebunden ist. (Me3Si)3P7[Cr(CO5]2 5 (gelb) entsteht aus 1 mit zwei Mol Cr(CO)5THF 2 bzw. aus 4 mit einem Mol 2. In 5 ist eine Cr(CO)5-Gruppe an ein Pe-Atom, die zweite an ein Pb-Atom gebunden. (Me3Si)3P7[Cr(Co)5]3 6 (gelb) bildet sich aus 5 mit einem Mol 2. In 6 sind zwei Cr(CO)5-Gruppen an Pb-Atome gebunden, die dritte an das Pa- oder ein Pe-Atom (Zuordnung nicht eindeutig).Bei Umsetzungen von 1 mit höheren Molzahlen 2 bilden sich Derivate mit der Pe-Cr(CO)4-Pe-Brücke. So entstehen aus 5 mit zwei bzw. drei Äquivalenten 2 die roten Verbindungen (Me3Si)3P7[Cr(CO)5]2[Cr(Co)4] 8 und (Me3Si)3P7[Cr(Co)5]3[Cr(Co)4] 9, mit vier Äquivalenten 2 bevorzugt 9. In 8 verbrückt die Cr(Co)4- Gruppe zwei Pe- Atome. Eine Cr(Co)5-Gruppe ist an das dritte Pe- Atom Koordiniert, die zweite an ein Pb-Atom, das direkt mit dem Pe- Atom der Cr(Co)4-Brücke verbunden ist. 9 leitet sich von 8 ab durch Einführung einer weiteren Cr(Co)5-Gruppe an das zweite P6-Atom, das mit dem zweiten Pe-Atom an der Cr(Co)4-Brücke verbunden ist. Bei Umsetzungen von 5 mit noch höheren Molzahlen an 2 lagern sich an 1 insgesamt vier Cr(CO)5- und eine Cr(CO)4-Gruppe an unter Bildung einer weniger beständigen Verbindung (Me3Si)3P7[Cr(Co)5]4[Cr(CO)4]. (Me3Si)3P71 reagiert mit Cr(CO)5 THF 2 erheblich langsamer als R3P7 (R = Et, iPr).Die Umsetzung von 1 mit Cr(CO)4NBD 3 ermöglicht nicht die Isolierung von (Me3Si)3 P7[Cr(CO)4]. Jedoch bildet 3 mit (Me3Si)3P7[Cr(CO)5)] 4 (Me3Si)3P7[Cr(CO)5]× [Cr(CO)4] 7 und mit (Me3Si)3P7[Cr(CO)5]2 5 (Me3Si)3P7[Cr(CO)5]2[Cr(CO)4] 8.Die Verbindungen 4,5,7,8,9 entsprechen in ihrem Aufbau weitgehend den Derivaten des Et3P7, jedoch bestehen gravierende Unterschiede bezüglich Stabilität und Reaktivität. Während sich Et3P7[Cr(Co)5]2 in Lösung zum stabilen Et3P7[Cr(Co)5][Cr(Co)4] umlagert, ist das analoge (Me3Si)3P7[Cr(Co)5][Cr(Co)4] 7 instabil und wird nicht aus (Me3Si)3 P7[Cr(CO)5]2 5 gebildet. Et3P7[Cr(CO)5]3 ist nur spektroskopisch nachweisbar und lagert sich leicht um zum Et3P7[Cr(CO)5]2×[Cr(CO)4], während (Me3Si)3P7[Cr(CO)5]3 6 zu isolieren ist. Die Unterschiede sind durch den größeren Raumbedarf der Me3Si-Gruppe bedingt. So gehen die Me3Si- Gruppen am (Me3Si)3P7 bei Einführung der Pe-Cr(CO)4-Pe-Brücke aus ihrer s- in die as- Position über.Während die Komplexverbindungen des R3P7 (R = Et, iPr)teilweise gut kristallisieren, konnten von denen des (Me3Si)3P7 keine kristalle erhalten werden. Die Strukturen der Verbindungen wurden durch Auswertung der Koordinationsverschiebung im 31P-NMR Spektrum und durch Vergleich mit Spektren von - durch Kristallstrukturuntersuchung gesicherten - Derivaten des Et3P7 abgeleitet.
    Additional Material: 1 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/zaac.19926080202
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  • 7
    Electronic Resource
    Electronic Resource
    Die Kristallstruktur des Tetrakis(di-tert.-butylphosphino)diphosphans. [(tBu)2P]2P—P[P(tBu)2]2 (1992)
    Weinheim : Wiley-Blackwell
    Zeitschrift für anorganische Chemie 607 (1992), S. 26-28 
    Details
    ISSN: 0044-2313
    Keywords: Tetrakis(di-tert.-butylphosphino)diphosphane ; [(tBu)2P]2P—P[P(tBu)2]2 ; crystal structure ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: The Crystal Structure of Tetrakis(di-tert.-butylphosphino)diphosphane [(tBu)2P]2P—P[P(tBu)2]2[(tBu)2P]2P—P[P(tBu)2]2 1 obtained at -20°C from a solution of (tBu)2P—P=P(Br)tBu2 forms yellow crystals (regular hexagons). 1 crystallizes monoclinic in the space group C2/c with a = 2145.6pm, b = 1137pm, c = 1696.1pm, β = 110.075° and Z = 4 formula units in the elementary cell. Due to high steric load the bond angles at the tertiary P atoms with δ = 115.7° are significantly larger than those at the primary P atoms with δ = 108.6°.
    Notes: [(tBu)2P]2P—P[P(tBu)2]2 1 sich aus (tBu)2P—P(Br)tBu2 (toluolische Lösung, -20°C) und fällt als gelbe Kristalle (regelmäßige Sechsecke) aus. 1 kristallisiert monoklin in der Raumgruppe C2/c mit den Gitterkonstanten a = 2145,6pm, b = 1137pm, c = 1696pm, β = 110,75°. Die Elementarzelle enthält 4 Formeleinheiten. Die Bindungswinkel an den tertiären P-Atomen mit δ = 115,7° sind infolge der hohen sterischen Belastung der tert. P-Atome gegenüber denen an den primären P-Atomen mit δ = 108,6° deutlich aufgeweitet.
    Additional Material: 1 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/zaac.19926070106
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  • 8
    Electronic Resource
    Electronic Resource
    Building und Reaktionen des Phosphanyliden-Phosphorans (tBu)2P—P = PX(tBu)2 (X = Br, Cl)Herrn Professor Joseph Grobe zum 60. Geburtstage am 2. November 1991 gewidmet (1992)
    Weinheim : Wiley-Blackwell
    Zeitschrift für anorganische Chemie 607 (1992), S. 19-25 
    Details
    ISSN: 0044-2313
    Keywords: Reaction of (tBu)2P—P=PX(tBu)2 (X = Br, Cl) ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Formation and Reaction of the Phosphanylidene-phosphorane (tBu)2P—P = PX(tBu)2 (X = Br, Cl)The formation of (tBu)2P—P = P(Br)tBu2 1 from [(tBu)2P]2PLi and BrH2C—CH2Br begins with an exchange of Li against Br and is then determined by the migration of Br from the secondary P atom in [(tBu)2P]2PBr 6 to the primary P in 1. Similarly, (tBu)2P—P = PC1(tBu)2 2 is obtained starting from PCl3 and LiP(tBu)2. The formation of Phospanylidene - phosporane is not influenced by the choice o the halogene substituent, but the presence of the tBu groups is strongly required. (tBu)2P—P(Li)—P(SiMe3)2 e. g., yields (tBu)2P—P(br)—P(SiMe3)2 with BrH2C—CH2Br; however neither this nor (tBu)2P—P(Cl)—P(SiMe3)2 do rearrange to a Phosphanylidene-phosphorane. The F3C substituent could be neglected in this investigation as [(F3C)2P]2P—SiMe3 cannot be lithiated by means of BuLi.Compounds 1 and 2 display a charateristic temperature dependent behavior. While 1 at +20°C decomposes via the reactive intermediate (tBu)2P—P to from the cyclophosphanes P3[P(tBu)2]4, it gives crystals of [(tBu)2P]2P—p[P(tBu)2]2 at -20°C (from a solution in toluene).Reacting 1 with tBuLi produces (tBu)2P—P = P(H)tBu2 20 and (tBu)2P—P(H)—P(tBu)2 14. Initially, a transmetallation yield tBuBr and (tBu)2 P—P=Pli(tBu)2 21,then LiBr and isobutene are eliminated and 20 is formed which can rearrange to produce 14. Without the elimination of isobutene, 1 react with nBuLi to give 21 witch can be trapped with Me3SiCl as (tBu)2P—P(tBu)223. The main product in in this reaction is however [(tBu)2P]2P—nBu 22.
    Notes: Dei Bildung von (tBu)2P—P = P(Br)tBu2 1 aus [(tBu)2P]2PLi und BrH2C—CH2Br wird eingeleitet durch den Lithium-Brom-Austausch und ist bedingt durch die anschließende Br-wanderung vom sekundären P-Atom im [(tBu)2P]2PBr 6 zum primären P-Atom in 1 Entsprechend bildet sich (tBu)2P—P = P(CI)tBu2 2 bei de Synthese von [(tBu)2P]2PC1 7 aus PC13 und Lip(tBu)2. Der Reaktionsablauf it unabhängig von den Halogensubstituenten, wird aber entscheidend beeinflußt durch die tBu-Gruppen. So bildet (tBu)2P—P(Li)—P(SiMe3)2 mit BrH2C—CH2Br das (tBu)2P—P(br)—P(SiMe3)2, das aber ebenso wie (tBu)2P—P(CI)—P(SiMe3)2 keine Umlagerung zm Phosphanyliden-Phosphoran eingeht. Der Ein1Uß der F3C-Gruppe auf die Umlagerung war nicht zu untersuchen, da [(F3C)2P]2P—SIMe3 auch mit BuLi nicht in das lithiierte Derivat zu überführen ist.1 und 2 zeigen charakteristische Reaktionen in Abhängigkeit von der Temperatur. Während 1 bei +20°C über das Reaktiv (tBu)2P—P die Cyclophosphane P3[P(tBu)2]4 bildet, Kristallisiert aus den Lösungen von 1 (z. B. Toluol) bei -20°C [(tBu)2P]2P—P[P(tBu)2]2.Die Umsetzungen von 1 mit tBuLi führen zu (tBu)2P—P=(H)tBu2 20 und (tBu)2P—P(H)—P(tBu)2 14. Dei Reaktion wird durch die Umlithiierung zwischen 1 und tBuLi zu tBuBr und (tBu)2P—P=P(Li)tBu2 21 eingeleitet, der unter LiBr-Abspaltung und Isobuten-Eliminierung die Bildung von 20 folgt, das zu 14 umlagert. 21 wird durch Reaktion von 1 mit nBuLi faßbar [Ausblieben der Buten-Eliminierung], das mit Me3SiCl zu (tBu)2P—P(SiMe3)—P(tBu)2 23 abreagiert. Hauptprodukt der Umsetzung ist [(tBu)2P]2P-nBu 22.
    Additional Material: 2 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/zaac.19926070105
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  • 9
    Electronic Resource
    Electronic Resource
    Komplexchemie P-reicher Phosphane und Silylphosphane. VII. Carbonylkomplexe des Heptaphosphans(3) iPr2(Me3Si)P7 (1992)
    Weinheim : Wiley-Blackwell
    Zeitschrift für anorganische Chemie 610 (1992), S. 51-56 
    Details
    ISSN: 0044-2313
    Keywords: Chromium carbonyl complexes of the iPr2(Me3Si)P7: iPr2(H)P7[Cr(CO)5] ; iPr2(Me3Si)P7[Cr(CO)5] ; iPr2(H)P7[Cr(CO)5]2 ; iPr2(Me3Si)P7[Cr(CO)5][Cr(CO)4] (three isomers) ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Transition Metal Complexes of P-rich Phosphanes and Silylphosphanes. VII Carbonyl Complexes of the Heptaphosphane(3) iPr2(Me3Si)P7From the reaction of iPr2(Me3Si)P7 1 with one equivalent of Cr(CO)5THF the yellow products iPr2(H)P7[Cr(CO)5] 2 and iPr2(Me3Si)P7[Cr(CO)5] 3 were isolated by column chromatography on silicagel. The P—H group in 2 results from a cleavage of the P—SiMe3 bond during chromatography. The Cr(CO)5 group in 2 is linked to an iPr—Pe atom, in 3 to the Me3Si—Pe atom of the P7 skeleton. The substituents do not force the formation of a single isomer; nevertheless 3 ist considerably favoured as compared to 2. From the reaction of 1 with 2 equivalents of Cr(CO)5THF the yellow iPr2(H)P7[Cr(CO)5]2 4 was isolated bearing one Cr(CO)5 group at an iPr—Pe atom, the other one at a Pb atom of the P7 skeleton.Compound 3 yields with Cr(CO)4NBD the red iPr2(Me3Si)P7[Cr(CO)5][Cr(CO)4] 5. Three isomers of 5 appear. Two Pe atoms of 5 are bridged by the Cr(CO)4 group, the third Pe atom is linked to the Cr(CO)5 ligand. iPr2(H)P7[Fe(CO)4] was isolated from the reaction of 1 with Fe2(CO)9. 31P NMR and MS data are reported.
    Notes: iPr2(Me3Si)P7 1 bildet mit einem Mol Cr(CO)5THF die gelben Verbindungen iPr2(H)P7[Cr(CO)5] 2 und iPr2(Me3Si)P7[Cr(CO)5] 3, die nach der chromatographischen Trennung auf einer Kieselgelsäure isoliert wurden. Die Ausbildung der P—H-Gruppe in 2 wird auf die Spaltung der P—SiMe3-Gruppe der Komplexverbindung bei der chromatographischen Trennung zurückgeführt. Die Cr(CO)5-Gruppe in 2 ist an die iPr—Pe-Gruppe, in 3 an die Me3Si—Pe-Gruppe des P7-Gerüstes gebunden. Die Substituenten beeinflussen die Komplexbildung nicht streng selektiv, jedoch ist Verbindung 3 gegenüber 2 deutlich begünstigt. Mit 2 Mol Cr(CO)5THF bildet 1das iPr2(H)P7[Cr(CO)5]2 4, in dem eine Cr(CO)5-Gruppe an eine iPr—Pe-Gruppe, die andere an ein Pb-Atom des P7-Gerüstes gebunden ist.Verbindung 3bildet mit Cr(CO)4NBD das rote iPr2(Me3Si)P7[Cr(CO)5][Cr(CO)4] 5, von dem drei Diastereomere auftreten. In 5 überbrückt die Cr(CO)4-Gruppe zwei Pe-Atome, an das dritte Pe-Atom ist die Cr(CO)5-Gruppe gebunden. Mit Fe2(CO)9 bildet 1das iPr2(H)P7[Fe(CO)4]. Es werden die Daten der 31P-NMR-Spektren und der massenspektrometrischen Untersuchung angegeben.
    Additional Material: 1 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/zaac.19926100109
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  • 10
    Electronic Resource
    Electronic Resource
    Komplexchemie P-reicher Phosphane und Silylphosphane. VII [1]. Bildung und Struktur von [Li(DME)3]2{(SiMe3)[Cr(CO)5]2 P—P=P—P[Cr(CO)5]2(SiMe3)}Herrn Professor Wolfgang Beck zum 60. Geburtstage am 5. Mai 1992 gewidmet (1992)
    Weinheim : Wiley-Blackwell
    Zeitschrift für anorganische Chemie 611 (1992), S. 56-60 
    Details
    ISSN: 0044-2313
    Keywords: [Li(DME)3]2{(SiMe3)[Cr(CO)5] 2 P—P = P—P[Cr(CO)5]2[(SiMe3)]} ; Bis[tris(1, 2-dimethoxyethan)lithium(1 +)]-1, 4-bis(trimethylsilyl)-1,1,4,4-tetrakis (pentacarbonylchrom(0))-tetraphos-2-phenat(2-) ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Transition Metal Complexes of P-rich Phosphanes and Silylphosphanes. VII. Formation and Structure of [Li(DME)3]2{(SiMe3)[Cr(CO)5]2 P-P = P-P[Cr(CO)5]2(SiMe3)}Deep red crystals of the title compound 1 are produced in the reaction of LiP(Me3Si)2[Cr(CO)5] with 1, 2-dibromoethane in DME. The structure of 1 was derived from the investigation of the 31P-NMR spectra and confirmed by a single crystal structure determination. 1 crystallizes in the space group P1 (no. 2); a = 1307.8(5)pm, b = 1373.1(5)pm, c = 1236.1(4)pm, α = 106.22(4)°, β = 88.00(3)°, γ = 115.52(4)° and Z = 1. 1 forms a salt composed of a dianion R2R4′P42- (R = SiMe3, R′ = Cr(CO)5) and solvated Li+ cations. The zigzag shaped dianion possesses the symmetry 1-Ci. The distances d(P—P) = 202.5(1)pm and d(P—P) = 221.9(1)pm correspond to a double bond and single bonds, respectively. The distances d(Cr—P) = 251.1(1) pm and 255.3(1) pm are larger than those observed so far which might be caused by the charge distribution in the dianion.
    Notes: Bei der Umsetzung von LiP(SiMe3)2[Cr(CO)5] mit 1, 2-Dibromethan in DME entstehen die rubinroten Kristalle der Titelverbindung 1. Die Struktur von 1 folgt aus der Untersuchung der 31P-NMR-Spektren und der Einkristallstrukturbestimmung. 1 kristallisiert in der Raumgruppe P1 (Nr. 2); a = 1 307,8(5) pm. b = 1373,1(5) pm, c = 1236, 1(4) pm, α = 106,22(4)°, β = 88,00(3)°, γ = 115,52(4)° mit Z = 1. 1 bildet ein Salz aus einem Dianion R2R4′P42 (R = SiMe3, R′ = Cr(CO)5) und solvatisierten Li+-Kationen. Das gewinkelte Dianion hat die Symmetrie 1-C1. Die Abstände d(P—P) = 202,5(1) pm und (d)P—P = 221,9(1) pm entsprechen einer Doppelbindung bzw. Einfachbindungen. Die Abstände d (Cr—P) = 251,1(1) pm bzw. 255,3(1) pm sind größer als bisher beobachtete, was auf die Ladungsverteilung im Anion zurückgeführt wird.
    Additional Material: 2 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/zaac.19926110509
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