IR‐Matrixspektrum und Normalkoordinatenanalyse von H<sub>2</sub>NCl

Minkwitz, R.; Wölfel, Volker; Naß, Rüdiger; Härtner, H.; Sawodny, W.

doi:10.1002/zaac.19895700112

Cited by 5 publications

(2 citation statements)

References 15 publications

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“…The absorption at 1529.5 cm −1 occurs in a region in which the deformation mode of a NH 2 group, δ(NH 2 ), is expected (cf. 1564 and 1534 cm −1 for FNH 2 and ClNH 2 , respectively,13 and the series 1530.4 cm −1 for H 2 GaNH 2 , 1528.7 cm −1 for HGaNH 2 , and 1505.9 cm −1 for GaNH 2 ) 14. Thus the IR spectra indicate the presence of an NH 2 group in the molecule.…”

Section: Resultsmentioning

confidence: 86%

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Himmel

Schiefenhövel

Binnewies

2003

Chemistry A European J

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We studied the reaction of SiCl(4) with NH(3) by mass spectrometry and IR spectroscopy. By means of mass spectrometry, SiCl(3)NH(2) was for the first time identified as an intermediate generated in significant amounts in the course of the reaction. In additional experiments, SiCl(3)NH(2) was formed as a stable gaseous product of the ammonolysis of SiCl(4), and the product was identified and characterized in detail by IR spectroscopic methods (gas phase and matrix isolation) in combination with quantum-chemical calculations. The calculations also gave access to important thermodynamical data.

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Section: Resultsmentioning

confidence: 86%

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Himmel

Schiefenhövel

Binnewies

2003

Chemistry A European J

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“…The absorption at 1529.5 cm À1 occurs in a region in which the deformation mode of a NH 2 group, d(NH 2 ), is expected (cf. 1564 and 1534 cm À1 for FNH 2 and ClNH 2 , respectively, [13] and the series 1530.4 cm À1 for H 2 GaNH 2 , 1528.7 cm À1 for HGaNH 2 , and 1505.9 cm À1 for GaNH 2 ). [14] Thus the IR spectra indicate the presence of an NH 2 group in the molecule.…”

Section: Resultsmentioning

confidence: 88%

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction Between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

2003

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Abstract:We studied the reaction of SiCl 4 with NH 3 by mass spectrometry and IR spectroscopy. By means of mass spectrometry, SiCl 3 NH 2 was for the first time identified as an intermediate generated in significant amounts in the course of the reaction. In additional experiments, SiCl 3 NH 2 was formed as a stable gaseous product of the ammonolysis of SiCl 4 , and the product was identified and characterized in detail by IR spectroscopic methods (gas phase and matrix isolation) in combination with quantum-chemical calculations. The calculations also gave access to important thermodynamical data.

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Applications in Inorganic Chemistry

Nakamoto

2008

Infrared and Raman Spectra of Inorganic and Coordination Compounds

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IR‐Matrixspektrum und Normalkoordinatenanalyse von H₂NCl

Abstract: Monochloramin H2NCl wird durch Halogenaustausch an H2NF mit CaCl2 in einer Gas‐Feststoff‐Reaktion hergestellt und in einer N2‐Matrix bei 15 K isoliert. Die Zuordnung seiner sechs Grundschwingungen wird durch eine Normalkoordinatenanalyse unterstützt.

Cited by 5 publications

References 15 publications

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction Between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Applications in Inorganic Chemistry

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IR‐Matrixspektrum und Normalkoordinatenanalyse von H2NCl

Abstract: Monochloramin H2NCl wird durch Halogenaustausch an H2NF mit CaCl2 in einer Gas‐Feststoff‐Reaktion hergestellt und in einer N2‐Matrix bei 15 K isoliert. Die Zuordnung seiner sechs Grundschwingungen wird durch eine Normalkoordinatenanalyse unterstützt.

Cited by 5 publications

References 15 publications

Identification and Characterization of Monomeric, Volatile SiCl3NH2 as Product of the Reaction between SiCl4 and NH3: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl3NH2 as Product of the Reaction between SiCl4 and NH3: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl3NH2 as Product of the Reaction Between SiCl4 and NH3: An Important Intermediate on the Way to Silicon Nitride?

Applications in Inorganic Chemistry

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IR‐Matrixspektrum und Normalkoordinatenanalyse von H₂NCl

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?

Identification and Characterization of Monomeric, Volatile SiCl₃NH₂ as Product of the Reaction Between SiCl₄ and NH₃: An Important Intermediate on the Way to Silicon Nitride?