Untersuchungen an Stickstoff–Chlor‐Verbindungen. V. Infrarot‐ und R<scp>AMAN</scp>‐Spektren von Stickstofftrichlorid

Bayersdorfer, L.; Engelhardt, U.; Fischer, Jürgen; Höhne, Karl; Jander, Jochen

doi:10.1002/zaac.19693660308

Cited by 22 publications

(5 citation statements)

References 12 publications

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“…The identity of the species, absorbed on the Me 4 NCl, was established by warming the solid to room temperature and collecting the volatiles at −196 °C. On the basis of their Raman spectra, the solid residue consisted of Me 4 NCl, while the volatile product, a yellow liquid at room temperature, was pure NCl 3 . − Our Raman spectrum of liquid NCl 3 (Figure ) is the first well-defined spectrum of the neat substance. Previously, only a partial spectrum of poor quality had been reported by Hendra and Mackenzie .…”

Section: Resultsmentioning

confidence: 87%

Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

et al. 2006

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Only two silyldichloramines, (C6H5)3SiNCl2 and (CH3)3SiNCl2, have been reported in the literature. The synthesis of the former was successfully repeated, and its structure was established by single-crystal X-ray diffraction and vibrational spectroscopy. Attempts to prepare (CH3)3SiNCl2 were unsuccessful; however, a new trialkylsilyldichloramine, t-BuMe2Si-NCl2, was prepared and characterized by Raman and multinuclear NMR spectroscopy. The reaction of t-BuMe2SiNCl2 with (CH3)4NF in CHF3 solution at -78 degrees C, followed by removal of all volatile products at -30 degrees C, produced the expected t-BuMe2SiF byproduct and a white solid consisting of NCl3 absorbed on Me4NCl. The NCl3 could be reversibly desorbed from the substrate and was identified as a neat liquid at room temperature by Raman spectroscopy. The observed final reaction products are consistent with the formation of an unstable N(CH3)4+NCl2- intermediate which decomposes to N(CH3)4+Cl- and NCl molecules which can dimerize to N2Cl2. Theoretical calculations confirm that NCl2- can readily lose Cl- and that N2Cl2 also possesses a low barrier toward loss of N2 to give chlorine atoms and, thus, can account for the formation of NCl3.

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Section: Resultsmentioning

confidence: 87%

Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

et al. 2006

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“…[2] in der bei Lit. [9] beschriebenen Weise. Die IR-Spektren wurden mit Hilfe der Gerä te Perkin-Elmer 577 und Bruker IFS-8 8 registriert; CsBr-bzw.…”

Section: Experimenteller Teilunclassified

Notizen: Synthese und IR-Spektrum von [MoCl₄(NCl)]₂ / Synthesis and IR Spectrum of [MoC₁₄(NCl)]₂

Frankenau

Dehnicke

1989

Zeitschrift Für Naturforschung B

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“…Für die IR-Spektren stand ein PerkinElmer-Gerät, Typ 577 zur Verfügung; CsBr-Scheiben, Nujol-Verreibungen. Stickstofftrichlorid erhielten wir aus wäßriger Ammoniumcarbonatlösung [18] bei Anwesenheit von Tetrachlorkohlenstoff und Trocknen der CCU/NCla-Lösung über P40io.…”

Section: Experimenteller Teilunclassified

Darstellung, Eigenschaften und Kristallstruktur von Rhenium(VII)-Nitridchlorid, ReNCl₄ / Preparation, Properties and Crystal Structure of Rhenium(VII) Nitride Chloride, ReNCl₄

Liese

Dehnicke

Walker

et al. 1979

Zeitschrift Für Naturforschung B

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Abstract Rhenium(VII) nitride chloride, ReNCl4, is prepared by the reaction of ReCl5 with nitrogen trichloride. It forms metallic glazing, hygroscopic needles with an effective magnetic moment of 0.23 B.M. In the mass spectrum only the molecular ion ReNCl4⊕ is present, followed by ReNCl3⊕. The crystal structure was determined by X-ray diffraction methods (space group Il, 265 independent reflexions, R = 0.071). The structure consists of ReNCl4 units, which are linked by strongly alternated Re ≡ N-Re chains with different bond lengths of r Re ≡ N = 158 pm and r Re-N = 248 pm. The structure is very similar to that of WOCl4.

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Untersuchungen an Stickstoff–Chlor‐Verbindungen. V. Infrarot‐ und RAMAN‐Spektren von Stickstofftrichlorid

Cited by 22 publications

References 12 publications

Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

Notizen: Synthese und IR-Spektrum von [MoCl₄(NCl)]₂ / Synthesis and IR Spectrum of [MoC₁₄(NCl)]₂

Darstellung, Eigenschaften und Kristallstruktur von Rhenium(VII)-Nitridchlorid, ReNCl₄ / Preparation, Properties and Crystal Structure of Rhenium(VII) Nitride Chloride, ReNCl₄

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Untersuchungen an Stickstoff–Chlor‐Verbindungen. V. Infrarot‐ und RAMAN‐Spektren von Stickstofftrichlorid

Cited by 22 publications

References 12 publications

Synthesis and Characterization of Silyldichloramines, Their Reactions with F- Ions, Instability of N2Cl2 and NCl2-, and Formation of NCl3

Synthesis and Characterization of Silyldichloramines, Their Reactions with F- Ions, Instability of N2Cl2 and NCl2-, and Formation of NCl3

Notizen: Synthese und IR-Spektrum von [MoCl4(NCl)]2 / Synthesis and IR Spectrum of [MoC14(NCl)]2

Darstellung, Eigenschaften und Kristallstruktur von Rhenium(VII)-Nitridchlorid, ReNCl4 / Preparation, Properties and Crystal Structure of Rhenium(VII) Nitride Chloride, ReNCl4

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Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

Synthesis and Characterization of Silyldichloramines, Their Reactions with F^- Ions, Instability of N₂Cl₂ and NCl₂^-, and Formation of NCl₃

Notizen: Synthese und IR-Spektrum von [MoCl₄(NCl)]₂ / Synthesis and IR Spectrum of [MoC₁₄(NCl)]₂

Darstellung, Eigenschaften und Kristallstruktur von Rhenium(VII)-Nitridchlorid, ReNCl₄ / Preparation, Properties and Crystal Structure of Rhenium(VII) Nitride Chloride, ReNCl₄