Latest Content

A new study led by Meirong Liu at the Beijing National Laboratory for Molecular Sciences provides a comprehensive framework to eliminate instrumental and experimental artifacts in photoluminescence spectroscopy.

Damodaran Krishnan Achary discusses how modern NMR spectroscopy enables interdisciplinary research, from biomolecular studies to solid-state materials, and emphasizes the importance of staying current with advanced techniques and experimental strategies.

This brief article highlights the key takeaways from studying the 3I/ATLAS comet and what it means for space exploration moving forward.

This tutorial introduces spectroscopy professionals to the operational principles, practical workflows, and laboratory applications of biosensors. It covers core definitions, biosensor types, transduction methods, nanomaterials-enabled strategies, and optical/electrochemical approaches relevant to spectroscopic analysis. Readers will learn how biosensors integrate biological recognition with physicochemical detection, how to implement them in real-world measurement tasks, and how to avoid common technical pitfalls when translating biosensor theory into laboratory practice.

A recent study used operando UV-vis spectroscopy to learn more about metal–sulfur redox reactions.

A new study published in Ecological Informatics finds that hyperspectral remote sensing combined with machine learning can accurately predict grassland forage quality across global biomes.

Top articles published this week include our coverage of the 2025 Eastern Analytical Symposium (EAS) conference and a recap of a study that detected lunar water ice using visible and near infrared (VNIR) spectroscopy.

Here in Episode #41, podcast host Dr. Jerry Workman speaks with Sunil Mehrotra and Doug Modlin, who are the project leaders of the Albert Michelson Exhibit at the Angels Camp Museum located in Angels Camp, California.

A recent study analyzed sediment cores from estuaries in the Tampa Bay area, revealing the damage that "legacy" nutrients are having on the ecological record there.

AlphaFold and similar tools don’t replace NMR—they amplify its power, freeing it to reveal the dynamic “dance” of molecules that static structures alone can never show.

A recent study establishes how particle size, particle shape, phase angle, and ice abundance influence VNIR spectral signatures, providing a refined framework for accurately detecting and quantifying lunar water ice in polar regions.

At the Eastern Analytical Symposium, Adam Hopkins of Metrohm highlighted how modern spectroscopy must balance precision with usability, showing that instruments optimized for real-world workflows often succeed more through practicality than perfection.

Karl Booksh, a Professor of Chemistry at the University of Delaware, has won the 2025 EAS Award for Outstanding Achievements in Chemometrics.