Researchers developed a high-precision method to analyze PFAS carbon isotope ratios, supporting improved identification of ...
Researchers at the Purdue Institute for Cancer Research (PICR) have developed a next-generation technology platform designed to accelerate one of the slowest and most challenging stages of cancer drug ...
As instruments grow faster, leaders say clinical impact will depend on trust, standards, data, and assays built for real ...
Researchers have developed a compact, low-cost convolutional spectrometer that delivers lab-grade precision for applications ...
Vice-Chancellor emphasizes research infrastructure's role in Viksit Bharat at a workshop on mass spectrometry-based proteomics in Kalaburagi.
Spectris increased CSF levels of multiple HDL-like lipid transport proteins, suggesting a “coordinated biological response” ...
Earth has a natural thermostat that has kept the planet habitable for more than 100 million years. Scientists have struggled ...
With the Xevo TQ Absolute, an instrument that offers absolute performance, users can have complete confidence in reaching lower limits of quantitation for challenging negative ionizing substances. The ...
Debates over the presence of microplastics in the human body highlight the challenge of studying something simultaneously ...
Scientists have finally uncovered how bacteria naturally create multiple versions of powerful anti-cancer drugs, solving a mystery that has frustrated researchers for decades.
Current HILIC retention concepts insufficiently explain oligonucleotide behavior on amide phases, limiting predictability and complicating analytical optimization for closely related therapeutic ...
As concerns over drinking water contaminants such as PFAS, lead, microplastics, volatile organic compounds (VOCs), and other ...