1989
DOI: 10.1002/mrc.1260270109
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Investigation of hydrogen‐bonded compounds using high‐resolution NMR spectroscopy in solids. Part 3—1H chemical shifts in polycrystalline trihydrogen selenites

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Cited by 14 publications
(11 citation statements)
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“…A least‐squares linear fit to the data for R(O⋯O) ≤2.8 Å yielded a correlation δ i H (ppm)=90.31–30.40R(O⋯O) (Å) with the coefficient of determination R 2 =0.98. This new correlation in general agrees with the 1 H NMR data for silicates and selenites reported previously 9,12,44 …”
Section: Correlation Between 1h Chemical Shift and Hydrogen Bondisupporting
confidence: 91%
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“…A least‐squares linear fit to the data for R(O⋯O) ≤2.8 Å yielded a correlation δ i H (ppm)=90.31–30.40R(O⋯O) (Å) with the coefficient of determination R 2 =0.98. This new correlation in general agrees with the 1 H NMR data for silicates and selenites reported previously 9,12,44 …”
Section: Correlation Between 1h Chemical Shift and Hydrogen Bondisupporting
confidence: 91%
“…Based on 1 H MAS NMR and CRAMPS data available on phosphates and other compounds (including carboxylic acids), Yesinowski et al 32 derived a linear correlation δ i H =79.05–25.5R(O⋯O) (Å) for the entire R(O⋯O) range up to about 3.1 Å, although it was noted that the correlation for R(O⋯O) >2.9 Å should be viewed with caution because of poor data coverage. 1 H CRAMPS data reported subsequently for a number of silicates 9 and selenites 44 yield systematically lower δ i H values than predicted by this correlation. Experimental 1 H NMR data on crystalline phases containing MgOH and CaOH groups and ab initio cluster calculations have shown that the slope for the δ i H vs. R(O⋯O) correlation levels off at long R(O⋯O), suggesting that it is unreasonable to fit a single, linear correlation for the entire R(O⋯O) range 14 .…”
Section: Correlation Between 1h Chemical Shift and Hydrogen Bondimentioning
confidence: 51%
See 1 more Smart Citation
“…exhibit linear correlations with the 2 H quadrupole coupling constants determined for the corresponding O-DÁ Á ÁO sites. Linear correlations between d iso ( 1 H) and the r OÁÁÁO bond length have also been reported for carboxylic acids [26], trihydrogen selenites [27], and for metal phosphates and other minerals [28]. Furthermore, correlations between d iso ( 1 H) as well as C Q ð 2 HÞ and the inverse of the hydrogen bond distance (r À1 HÁÁÁO ) have been observed for a number of 1 H/ 2 H sites in hydrogen bonds [29].…”
Section: Introductionmentioning
confidence: 76%
“…Subsequently, a linear correlation between the isotropic 1 H shift δiso( 1 H) and d(H…O) was established by comparison with neutron diffraction data [10]. Many similar relationships have been found for phosphates [11], hydrosilicates [12], selenites [13] and amino acids [14], and these are commonly used to extract hydrogen bond lengths from solid-state NMR measurements. However, later studies suggest that the situation is more complicated than first thought.…”
Section: Introductionmentioning
confidence: 85%