Welcome to Nanalysis’ benchtop NMR Blog
We love benchtop NMR! In this blog section, you will find all things benchtop NMR. Please contact us if you would like to discuss about your project.
Category
NMR Topics
- 100 MHz NMR
- 13C NMR
- 19F NMR
- 19F NMR Spectroscopy
- 31P NMR
- 3H NMR
- Agrochemicals
- Applications
- Biopolymers
- Botanicals
- COSY
- CPMG
- Cannabis
- Chemical Analysis
- Cosmetics
- DEPT
- Drug Analysis
- Edible Oils
- Educational NMR
- Energy
- Exchangeable Protons
- Exchangeable protons
- Flavor and Fragrances
- Flow NMR
- Fluorine-19 NMR
- Food Science
- Food and Beverage
- Forensics
- Forestry
- HMBC
- HSQC
- Hands-on Learning
- Hydroxyl value
- Hyphenated NMR
- Illicit Drugs
- Industrial Applications
- Interpretation of NMR
- Interpretation of NMR Spectra
- Inversion-Recovery
- Keto-Enol Tautomerism
- LF vs. HF NMR
- Lignin Analysis
- Literature
- Literature using Nanalysis benchtop NMR
- Mining
- NMR Applications
- NMR Instrumentation
- NMR Labelling
- NMR Pulse Programs
- NMR Signal Processing
Relation between the FID and the NMR spectrum
NMR users can deal with spectrum evaluation in the daily work, but how is the spectrum information stored in the time domain (FID)? Read more.
Benchtop NMR Data and Quantum Mechanical Spectral Analysis
It is well known that signal dispersion decreases as the NMR field strength is reduced. For example, at 400 MHz, 1 ppm spans 400 Hz while at 60 MHz, 1 ppm spans 60 Hz.
NMR data processing: Phase Correction
Most NMR users know that phase correction is a very important adjustment that needs to be made to a spectrum. Practically speaking, the phase of a signal is related to the amount of signal observed above and below the baseline.
Relation between the FID and the NMR spectrum
NMR users can deal with spectrum evaluation in the daily work, but how is the spectrum information stored in the time domain (FID)? Read more.