Heteronuclear X-Y double quantum MAS NMR in crystalline inorganic solids Applications for indirect detection and spectral editing of rare-spin resonances

Heteronuclear X-Y double quantum MAS NMR in crystalline inorganic solids Applications for indirect detection and spectral editing of rare-spin resonances

Heteronuclear double quantum MAS NMR experiments in the solid state, involving pairs of highly abundant 31P spins and the rare spins 113Cd, 77Se, and 29Si, are described for the three crystalline compounds CdSiP 2, CdGeP 2, and Ag 7PSe 6. These experiments offer the opportunity of indirectly detecti...

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Veröffentlicht in:Solid state nuclear magnetic resonance 1992-02, Vol.1 (1), p.33-40
Hauptverfasser: Franke, Deanna, Hudalla, Christopher, Eckert, Hellmut
Format: Artikel
Sprache:eng
Schlagworte:
Cadmium - chemistry
Chemical Phenomena
Chemistry, Inorganic
Crystallization
double quantum NMR
indirect detection
Isotopes
Magnetic Resonance Spectroscopy - methods
phosphides
Phosphorus - chemistry
Quantum Theory
Selenium - chemistry
Silicon - chemistry
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Zusammenfassung:Heteronuclear double quantum MAS NMR experiments in the solid state, involving pairs of highly abundant 31P spins and the rare spins 113Cd, 77Se, and 29Si, are described for the three crystalline compounds CdSiP 2, CdGeP 2, and Ag 7PSe 6. These experiments offer the opportunity of indirectly detecting the rare-spin resonance via chemical shift evolution of heteronuclear double quantum coherence. For suitable cases, this method results in significantly enhanced detection sensitivities. Criteria for favorable indirect detection experiments are established. Besides offering high sensitivity, the pulse sequence also acts as a heteronuclear double quantum filter, hence providing heteronuclear correlation and useful spectral editing for peak assignments.
ISSN:0926-2040
1527-3326
DOI:10.1016/0926-2040(92)90007-V