Many industries rely on nuclear magnetic resonance or NMR as one of the best analytical methods. Nuclear magnetic resonance was first demonstrated by the team of Felix Block and Edward Mills Purcell in 1946. In 1952, these two individuals would win a Nobel Prize for their efforts. It was also during the 1950s, in which the first types of commercial spectrometers became commercially available. Since this time, NMR spectrometers have been used for many purposes. With that in mind, here are three benefits of using NMR spectrometers.
- Observing Live Cell Functions
Many low field NMR spectrometer applications involve observing the behavior of cells. Since low field NMR doesn’t cause sample damage, you can watch these behaviors take place in real time. This allows lab employees to observe activity that other types of research equipment simply can’t provide.
- Protecting the Condition of Samples
It’s important to ensure that samples aren’t accidentally tampered with. In many cases, this can ruin your ability to accurately observe and test samples. However, certain types of observation equipment can cause slight amounts of damage to what’s being observed. With that in mind, you’ll be glad to know that NMR doesn’t cause damage to your samples. This allows samples to be observed multiple times, without ever to worry about it receiving damage.
- Perfect for Studying Various Types of Molecules
Lab scientists know they’re often working with a wide variety of samples. Most likely, you’re going to be looking at samples from several types of industries. Considering that, this often means having to use various types of equipment to perform accurate observations. This isn’t the case with low field NMR spectrometers. These devices are able to observe multiple types of molecules that range in various sizes.
In closing, there are several wise reasons to consider implementing NMR spectrometers in your lab. These devices allow employees to observe how samples behave in real time. In addition, you can rest assured that no samples will receive damage while operating an NMR spectrometer. That being said, it’s important to note that most low field NMR spectrometers operate below 0.3 Tesla. If you’re needing magnetic power ranging from one to three Tesla, you’ll want to find a high field NMR spectrometer.
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