15N NMR Spectroscopy of Cyclotriphosphazenes and Polyphosphazenes Based on31P,15N HMQC Correlations

Journal of Magnetic Resonance, Series A Pub Date : 1996-08-01 DOI:10.1006/jmra.1996.0155

Elvira Peláez-Arango, Francisco J. Garcı́a-Alonso, Gabino Carriedo, Fernando López-Ortiz

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引用次数: 6

Abstract

A³¹P and¹⁵N NMR study of cyclotriphosphazenes 1–4 and polyphosphazene 5 has been carried out including solvent and substituent effects.¹⁵N chemical shifts and³¹P,¹⁵N coupling constants are readily obtained through 1D and 2D³¹P,¹⁵N HMQC correlation spectroscopy on natural-abundance samples. This methodology combined with spectral simulation also yields¹⁵N-induced isotope shifts.³¹P and¹⁵N are both relatively insensitive to changes in solvent polarity. Chemical shifts are reasonably explained in terms of electronic density variations, and³¹P,¹⁵N couplings are rationalized by considering their absolute sign, which depends on the substituent bonded to phosphorus.¹⁵N proved to be more sensitive to structural modifications than³¹P. Therefore, the availability of¹⁵N NMR data on cyclotriphosphazenes can be considered a valuable tool in the design of model compounds for polyphosphazene synthesis.

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基于31p,15N HMQC相关性的环三磷腈和聚磷腈的15N核磁共振波谱

对环三磷腈1-4和聚磷腈5进行了A31P和15n NMR研究，包括溶剂效应和取代基效应。通过对天然丰度样品的1D和2D31P,15N的HMQC相关光谱，可以很容易地得到15N的化学位移和31p,15N的耦合常数。该方法与光谱模拟相结合，也产生了15n诱导的同位素位移。31P和15n对溶剂极性变化相对不敏感。化学位移可以用电子密度变化来合理解释，31p、15N耦合可以通过考虑它们的绝对符号来合理解释，这取决于与磷键合的取代基。15N比31p对结构变化更敏感。因此，环三磷腈的15n核磁共振数据的可用性可以被认为是设计聚磷腈合成模型化合物的有价值的工具。

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Journal of Magnetic Resonance, Series A

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