Nuclear magnetic resonance (NMR) spectroscopy is an innovative spectroscopic technique used to observe the local magnetic fields of specific atomic nuclei. This opening sentence probably doesn’t ...

Several biomedical research applications make the most of the natural fluorescence response of amino acids – the essential building blocks of all proteins. These protein fluorescence responses to ...

Chemistry, a branch of science so universally applicable, includes fields of study spread across the map. These divergent studies in the field of chemistry indicated that chemists and researchers ...

Mass spectrometry represents a powerful technique with a myriad of different applications in biology, chemistry, and physics, but also in clinical medicine and even space exploration. It is used to ...

From decoding quantum mysteries to enabling portable diagnostics, spectroscopy is evolving into a versatile powerhouse across science and industry. Advances in lasers, AI, and miniaturization are ...

Raman spectroscopy is built on inelastic photon scattering and reveals individual molecular fingerprints. The article explores how it delivers precise details through peak position, shift, intensity, ...

While there are a number of techniques available for profiling surface structures, like scanning electron microscopy and transmission electron microscopy, the advantage Auger spectroscopy has for ...

In this webinar we will take you inside our labs to share with you the advances and capabilities of Agilent’s atomic spectroscopy instrumentation. We will share with you our combined decades of ...

Conventional spontaneous Raman spectroscopy of interfacial molecules typically requires plasmonic or electronic enhancement, ...

Hamamatsu Photonics is committed to supporting innovation in photonics and enabling practical solutions for real-world ...