Explore how Two-Floor Thin-Layer Chromatography transformed forensic chemistry, enabling precise analysis of complex mixtures from drugs to textile dyes.
Exploring how machine learning transforms nuclear diagnostics through advanced spectroscopic analysis and pattern recognition.
Discover how forensic toxicologists use GC-MS-EI to detect synthetic cathinones like α-PHP in postmortem blood samples, a critical tool for justice and public health.
Discover how Laser-Induced Breakdown Spectroscopy (LIBS) is revolutionizing glass forensics and recycling industries with elemental fingerprinting.
Discover how hair analysis revolutionized the detection of psychedelics like LSD, psilocin, and bufotenine in forensic investigations.
Explore how Isoelectric Focusing in Immobilized pH Gradients (IPG-IEF) revolutionizes clinical diagnostics and forensic analysis through precise protein separation.
Breakthrough in thermally responsive adhesion using dry chemical pathway for diene and dienophile surface functionalization enabling smart metal-polymer bonding.
Explore groundbreaking discoveries in Earth science, from the origins of life to cosmic theories and innovative research tools that help us understand our planet's past and future.
Explore how X-ray Photoelectron Spectroscopy (XPS) revolutionizes forensic analysis of gunshot residue by revealing chemical bonding information invisible to traditional methods.
Discover how forensic scientists revolutionized mitochondrial DNA sequencing with an innovative 8-amplicon Sanger strategy for high-throughput analysis.