Research Articles
Decoding History's Palette: How Light Unlocks Secrets of Early Synthetic Pigments
Explore how Micro-Raman and Surface-Enhanced Raman spectroscopy reveal the chemical secrets of early synthetic pigments in historical artworks.
Seeing the Unseeable: How Solid-State NMR Reveals the Hidden World of MOFs
Discover how solid-state NMR spectroscopy is revolutionizing our understanding of metal-organic frameworks at the atomic level, enabling breakthroughs in materials science and sustainability.
Unseen Worlds: The Elemental Detectives and Their High-Tech Tools
Explore the fascinating world of instrumental inorganic element analysis and discover how scientists detect trace elements in our environment, food, and bodies.
Cosmic Bar Codes: Cracking the Chemical Secrets of the Universe with Quantum Science
Discover how quantum chemistry helps astronomers identify molecules in space through their unique spectral fingerprints.
The Invisible Becomes Visible: How Synchrotron Radiation Reveals the Secrets of Porous Silicon Oxide
Explore how synchrotron radiation enables breakthrough research in porous silicon oxide materials for advanced technological applications.
Seeing the Invisible: How Scientists Decode Titanium Dioxide's Hidden Light-Absorbing Powers
Explore how scientists measure titanium dioxide's absorption coefficient using advanced techniques like GI-FTIR and ellipsometry, and discover its applications in solar cells, coatings, and environmental purification.
Unveiling Art's Hidden Layers: ATR-FTIR Mapping Reveals Secrets at the Microscopic Scale
Explore how ATR-FTIR mapping technology reveals microscopic layers in centuries-old artworks, overcoming the diffraction limit for unprecedented analysis.
Electron Spin Resonance Spectroscopy: Tracking Tiny Magnetic Fields with Modern Methods
Explore modern developments in electron spin resonance spectroscopy, its principles, advanced techniques, and applications in biology and materials science.
Seeing the Unseeable: The Chemical Microscope That Peers at Molecules
Explore how AFM-IR combines atomic force microscopy with infrared spectroscopy to reveal nanoscale chemical composition with unprecedented resolution.
The Invisible Dance: How Laser Light Unlocks Thiophosgene's Quantum Secrets
Exploring how optical-optical double resonance reveals thiophosgene's dark triplet states and their quantum behaviors.