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Date: 12-1-2022
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Date: 7-8-2019
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Date: 12-1-2022
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Chloroform-d (CDCl3) is the most common solvent for nmr measurements, thanks to its good solubilizing character and relative unreactive nature ( except for 1º and 2º-amines). As noted earlier, other deuterium labeled compounds, such as deuterium oxide (D2O), benzene-d6 (C6D6), acetone-d6 (CD3COCD3) and DMSO-d6 (CD3SOCD3) are also available for use as nmr solvents. Because some of these solvents have π-electron functions and/or may serve as hydrogen bonding partners, the chemical shifts of different groups of protons may change depending on the solvent being used. The following table gives a few examples, obtained with dilute solutions at 300 MHz.
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CDCl3 | C6D6 | CD3COCD3 | CD3SOCD3 | CD3C≡N | D2O | ||
---|---|---|---|---|---|---|---|---|
(CH3)3C–O–CH3 C–CH3 O–CH3 |
1.19 3.22 |
1.07 3.04 |
1.13 3.13 |
1.11 3.03 |
1.14 3.13 |
1.21 3.22 |
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(CH3)3C–O–H C–CH3 O–H |
1.26 1.65 |
1.05 1.55 |
1.18 3.10 |
1.11 4.19 |
1.16 2.18 |
--- --- |
||
C6H5CH3 CH3 C6H5 |
2.36 7.15-7.20 |
2.11 7.00-7.10 |
2.32 7.10-7.20 |
2.30 7.10-7.15 |
2.33 7.15-7.30 |
--- --- |
||
(CH3)2C=O | 2.17 | 1.55 | 2.09 | 2.09 | 2.08 | 2.22 |
For most of the above resonance signals and solvents the changes are minor, being on the order of ±0.1 ppm. However, two cases result in more extreme changes and these have provided useful applications in structure determination. First, spectra taken in benzene-d6 generally show small upfield shifts of most C–H signals, but in the case of acetone this shift is about five times larger than normal. Further study has shown that carbonyl groups form weak π–π collision complexes with benzene rings, that persist long enough to exert a significant shielding influence on nearby groups. In the case of substituted cyclohexanones, axial α-methyl groups are shifted upfield by 0.2 to 0.3 ppm; whereas equatorial methyls are slightly deshielded (shift downfield by about 0.05 ppm). These changes are all relative to the corresponding chloroform spectra.
The second noteworthy change is seen in the spectrum of tert-butanol in DMSO, where the hydroxyl proton is shifted 2.5 ppm down-field from where it is found in dilute chloroform solution. This is due to strong hydrogen bonding of the alcohol O–H to the sulfoxide oxygen, which not only de-shields the hydroxyl proton, but secures it from very rapid exchange reactions that prevent the display of spin-spin splitting. Similar but weaker hydrogen bonds are formed to the carbonyl oxygen of acetone and the nitrogen of acetonitrile..
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تفوقت في الاختبار على الجميع.. فاكهة "خارقة" في عالم التغذية
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أمين عام أوبك: النفط الخام والغاز الطبيعي "هبة من الله"
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المجمع العلمي ينظّم ندوة حوارية حول مفهوم العولمة الرقمية في بابل
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