Physicists have discovered that silicon-22 reveals a new proton magic number offering critical insights into nuclear ...

Integrating Spinsolve NMR in labs supports green chemistry, reducing environmental impact while enhancing students' practical ...

Nuclear magnetic resonance (NMR) spectroscopy is a widely utilized analytical technique in chemistry. This study focuses on developing a concept inventory to assess students’ understanding of ...

Bruker’s Industry Prospects Per a research report, the global NMR spectroscopy market was valued at $760.7 million in 2023 and is expected to grow at a compound annual rate of 5.1% by 2030.

In multi-dimensional spectroscopy, the primary challenge is differentiating between real NMR signals and artifacts produced due to acquisition time limitations and pulse sequence imperfections.

Although NMR spectroscopy is the only method to elucidate chemical structures down to atomic resolution at ambient temperature, it had so far been "blind" to the chirality of molecules.

NMR spectroscopy is an analytical technique commonly used in academia and industry, and is a critical part of today’s food, chemistry, biochemistry, and pharmaceuticals research. NMR facilitates the ...

In traditional proton—or 1 H—NMR, chemists use the chemical shifts of hydrogen atoms to help identify molecular structures.

NMR spectroscopy, a versatile tool for molecular analysis, excels in quantitative NMR (qNMR) without needing calibration curves or identical standards.

To the best of our knowledge few papers devote special attention on a detailed application of NMR spectroscopy to characterize the interaction of metallic complexes with macromolecular targets.

The sequential assignment of protein resonances is a prerequisite in nuclear magnetic resonance (NMR) to further structural studies, and, as in 13 C-detected spectroscopy, extended sets of pulse ...