Spectroscopic methods form the cornerstone of molecular analysis by probing interactions between electromagnetic radiation and matter to reveal structural, dynamical and compositional information.

Spectroscopic methods have become indispensable tools for rapid, non-destructive evaluation of food composition, safety and authenticity. Techniques spanning the ultraviolet, visible, near-infrared ...

Numerous analytical methods provide scientists with critical insights into how the world works at the micro- and nanoscale. Each method offers distinct advantages, and combining multiple analytical ...

A gap-controlled infrared technique makes it possible to study molecular interfaces with high sensitivity using affordable, widely available lab equipment. These molecular interfaces are everywhere—on ...

Wastewater treatment plants (WWTPs) are significant contributors to greenhouse gas (GHG) emissions, including methane (CH4), carbon dioxide (CO2), and nitrous oxide (N2O). Traditional methods for ...

Accurately and rapidly quantifying protein content is essential for modern biology, biochemistry, and biophysics laboratories worldwide. Researchers are focused on determining total protein content, ...

Optoelectronic materials, which exhibit properties of both electronics and optics, have revolutionized various technologies, including solar cells, light-emitting diodes (LEDs), and sensors. These ...

Learn how spectroscopic techniques are transforming tissue identification in medical diagnostics. This article delves into the limitations of traditional biopsy methods and outlines how spectrometers, ...

In traditional medical diagnostics, the procedure involves taking a patient biopsy sample and then meticulous analysis, which commonly utilizes microscopy methods within a laboratory setting. While ...

Elemental spectroscopy is a method employed to examine in-service fluid samples such as engine oil or hydraulic fluid, to determine the presence and quantity of different substances. This approach ...