The chemical shifts (d) of solvent signals observed for 1 H NMR and 13 C NMR spectra are listed in the following table. The multiplicity is shown in parentheses as 1 for singlet, 2 for doublet, 3 for ...

Common NMR active nuclei are 1H, 13C, 31P, 15N, 29Si, and many more. Nearly every element has at least one isotope that is NMR active. Since then, NMR spectroscopy has become an indespensible tool for ...

"Pure shift" NMR spectra, also known as broadband homonuclear decoupling, has been developed for disentangling overlapped proton spectra. The resulting spectra are considerably simplified as they ...

NMR spectroscopy is among the most powerful analytical techniques ... for simultaneous decoupling on multiple nuclei such as 1H, 2H, 13C and 15N. Triple Resonance Probes give you access to advanced ...

A frequently documented NMR spectrum is the 1D 13 C carbon spectrum, which is less sensitive than the 1 H spectrum. Proton decoupling during the FID acquisition can boost its sensitivity (Figure 1).

Have your data emailed to you when the acquisition is completed! Use this instrument for 1H, 19F, 19F{1H}, 13C, 11B, 31P, 29Si, 195Pt, or practically any "X" nucleus with automatic probe-tuning. This ...

Nuclear magnetic resonance (NMR) spectroscopy is a technique that detects the chemical environment of atomic nuclei by the absorption of radio-frequency electromagnetic radiation when in the ...

and sensitivity in 80 MHz homonuclear 1H or heteronuclear 1H/13C FT-NMR experiments. It works using the TopSpin™ software from Bruker, thus providing users access to the wide-ranging TopSpin ...