The recording of NMR spectra is cost-effective and fast thanks to consistent automation. Measurements are possible in high throughput and can be recorded around the clock. This eliminates unnecessary waiting times. At the same time, sample preparation is kept to a minimum and time-consuming method development is not required. The recorded NMR spectra are therefore ideal for monitoring ongoing processes. The spectra also enable subsequent interpretation of the data. NMR spectral data is suitable for the characterization, registration and verification of analytes.
The acquisition of NMR spectra offers numerous advantages that make it a preferred method in analytical chemistry. Through consistent automation, spectra are obtained in a cost-effective and extremely time-efficient manner. The measurements can be performed in high throughput, which means that a large number of samples can be analyzed in a short time. This makes it possible to carry out measurements around the clock, avoiding unnecessary waiting times.
Another advantage of NMR spectroscopy is the minimal sample preparation. In contrast to other analytical methods, no complex sample preparation is required, which simplifies and accelerates the entire process. In addition, no complex method development is necessary.
The recorded NMR spectra are ideal for monitoring ongoing processes. They provide precise and reliable data that enables continuous process control and optimization. In addition, the spectra are the basis for the subsequent interpretation of the data. This is particularly important for the characterization of substances as well as for the registration and verification of analytes.
Overall, NMR spectroscopy is a powerful and efficient method that is indispensable in many areas of chemistry and materials science. Its ability to provide accurate and reproducible data makes it a valuable tool for research and development as well as for quality control in industry.
