Cholesterol biosensors represent a critical advancement in analytical technology, offering rapid, cost-effective and highly sensitive methods for the quantification of cholesterol in both clinical and ...

Researchers in Japan have developed an optimized hydrogen gas measurement using TDLAS technique. It is reportedly able to achieve a detection range of hydrogen gas concentration of 0.01% to 100%. The ...

Regulating PFAS: Detection and Evolving Limits PFAS is routinely quantified through liquid chromatography (HPLC) coupled to triple quadrupole (TQ) mass spectrometers. Multiple regulations and legal ...

Quantitative polymerase chain reaction (qPCR) is a molecular technique that has reshaped the landscape of biological research and medicine due to its high sensitivity and specificity. qPCR, also known ...

Scientists at the U.S. Naval Research Laboratory (NRL), working with Florida International University's (FIU) Global Forensic and Justice Center, have demonstrated a new method for detecting trace ...

Particle size characterization in nanosuspensions often focuses on ‘majority’ features of the size distribution. Yet, for various suspensions in (bio)pharmaceuticals or fine chemicals, small fractions ...

A crucial element in both the synthesis and functionality of nanoparticles involves the attachment of ligands. 6 The appropriate choice of ligands can enhance the solubility of nanoparticles or affect ...