All Library Books, journals and Electronic Records Telegrafenberg

feed icon rss

Your email was sent successfully. Check your inbox.

An error occurred while sending the email. Please try again.

Proceed reservation?

  • Gadolinium Bromide Carbide Nitride  (1)
  • Gd6N2 double tetrahedron  (1)
  • 1
    ISSN: 0044-2313
    Keywords: Gadolinium Iodide Carbide Nitride ; Gadolinium Bromide Carbide Nitride ; Yttrium Iodide Carbide Nitride ; Lanthanum Iodide Carbide Nitride ; preparation ; X-ray single crystal structure investigation ; crystal structure ; condensed cluster ; chain of condensed octahedra and double tetrahedra ; C—C single bond ; Gd6(C2) octahedron ; Gd6N2 double tetrahedron ; Y10(C2)2 double octahedron ; Y6N2 double tetrahedron ; α-Gd4I6CN, β-Gd4I6CN, Y6I9C2N, α-Gd4Br6CN, α-La4I6CN ; Chemistry ; Inorganic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Gd4I6CN: A Carbide Nitride with Chains of Gd6(C2) Octahedra and Gd6N2 Double TetrahedraThe compound α-Gd4I6CN is prepared by reaction of Gd, GdI3, C, and GdN (1:2:1:1 mole ratio) at 1 170 K in sealed Ta tubes. It is obtained as brown red, transparent needles which are air and moisture sensitive. The structure of α-Gd4I6CN contains Gd6 octahedra centered by C2 groups and double tetrahedra centered by N atoms. The units are alternatingly connected via common edges to form chains (Gd2Gd4/2C2) (Gd2/2Gd2/2N)2 parallel [001]. The linear chains are surrounded by I atoms above all free edges of the metal polyhedra and linked according to (Gd2Gd4/2C2) (Gd2Gd4/2N2)I4/2I8I2 in the a - b plane.We also found β-Gd4I6CN, which is formed in a monotropic transition from the α-form. In the structure the chains of Gd octahedra and tetrahedra as described for α-Gd4I6CN are more densely packed.The structure of Y6I9C2N is composed by chains of pairs of Y-octahedra and Y-tetrahedra, respectively. The octahedra are centered by C2 groups, the tetrahedra by N-atoms.We also synthesized the compounds Gd4Br6CN und La4I6CN by tempering at 1 220 K. They are isotypic with α-Gd4I6CN.
    Notes: α-Gd4I6CN wird durch Reaktion von Gd, GdI3, C und GdN (Molverhältnis 1:2:1:1) bei 1 170 K im verschlossenen Ta-Tiegel erhalten. Es bildet braunrot durchscheinende Nadeln, die gegen Luft und Feuchtigkeit empfindlich sind. Die Struktur von α-Gd4I6CN enthält durch C2-Einheiten zentrierte Gd6-Oktaeder und Doppel aus N zentrierten Tetraedern, Gd6N2. Abwechselnd sind Oktaeder und Tetraederdoppel über gemeinsame Kanten zu Ketten (Gd2Gd4/2C2) (Gd2/2Gd2/2N)2 verknüpft, die parallel [001] ausgerichtet sind. Diese eindimensionalen Einheiten sind über allen freien Kanten durch Iodatome koordiniert und untereinander nach dem Schema (Gd2Gd4/2C2) · (Gd2Gd4/2N2)I4/2I8I2 in der a - b-Ebene verknüpft.Daneben existiert noch ein β-Gd4I6CN, das sich monotrop aus der α-Form bei 1 300 K bildet. Dessen Struktur zeichnet sich durch eine dichtere Packung der für die α-Form beschriebenen Gd-Oktaeder-Tetraederketten aus.In der Struktur von Y6I9C2N sind die Ketten aus Doppeln sowohl C2-zentrierter Oktaeder als auch N-zentrierter Tetraeder der Y-Atome aufgebaut.Weiter erhielten wir die mit α-Gd4I6CN isotypen Verbindungen Gd4Br6CN und La4I6CN durch Tempern der Ausgangsverbindungen bei 1 220 K.
    Additional Material: 6 Ill.
    Type of Medium: Electronic Resource
    Location Call Number Expected Availability
    BibTip Others were also interested in ...
Close ⊗
This website uses cookies and the analysis tool Matomo. More information can be found here...