Difference between revisions of "Interpretation of NMR Results"
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(Created page with "This is the page for interpretation of NMR. ==List of topics in this section==") |
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| − | + | ==Introduction== | |
| + | The main element that is studied in NMR is hydrogen. In the literature hydrogen is called proton, hence the name proton NMR. A proton NMR spectrum will only show protons, no other elements. Similarly, a carbon spectrum will show only carbons. The other major nuclei that can be studied with NMR are nitrogen, phosphorus and fluorine. Each nucleus requires special tuning of the instrument to be able to see. | ||
| + | ==What does the result look like?== | ||
| + | ==Peaks== | ||
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| + | ==Peak areas== | ||
| + | |||
| + | ==Spectral regions== | ||
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| + | ==Solvent peaks== | ||
| + | |||
| + | ==water peak== | ||
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| + | ==Splitting== | ||
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| + | ==Exchangeable protons== | ||
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| + | ==Concentration Effects== | ||
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| + | ==Examples== | ||
==List of topics in this section== | ==List of topics in this section== | ||
Revision as of 16:06, 30 April 2020
Contents
Introduction
The main element that is studied in NMR is hydrogen. In the literature hydrogen is called proton, hence the name proton NMR. A proton NMR spectrum will only show protons, no other elements. Similarly, a carbon spectrum will show only carbons. The other major nuclei that can be studied with NMR are nitrogen, phosphorus and fluorine. Each nucleus requires special tuning of the instrument to be able to see.
