Research Articles
Beyond the Light Barrier: Seeing the Invisible World with Near-Field Super-Vision
Explore how Near-Field Scanning Optical Microscopy (NSOM/SNOM) breaks the diffraction limit to reveal nanoscale optical properties with unprecedented resolution.
The Twisting Code: How Synthetic Chains Mimic Nature's Molecular Architects
Exploring how aliphatic oligoureas with proline-type units fold into stable helices, offering potential for drug discovery and materials science.
The pH Dive: How Acid States Make Fatty Acid Probes Plunge Deeper in Your Cells
Exploring how pH affects the depth of fluorescent probes in cell membranes using parallax analysis of fluorescence quenching.
The Palladium Promise: How a Lab-Created Molecule Outsmarts Cancer Cells
Discover how palladium-based complexes are revolutionizing cancer treatment by outperforming cisplatin with reduced toxicity and overcoming drug resistance.
The Shape Shifters: How Artificial Neural Networks Are Decoding Nanoparticle Personalities
How artificial neural networks are revolutionizing nanoparticle shape classification and enabling breakthroughs in nanomedicine, quantum computing, and materials science.
Purple Gold: The Cancer-Fighting Treasure Hidden in an Ocean Sponge
Discover pseudoceranoids, the revolutionary cancer-fighting compounds found in the purple sponge Pseudoceratina purpurea from the South China Sea.
The Computational Microscope: How Quantum Physics Unlocks the Secrets of a Muscle Relaxant
Exploring how density functional theory (DFT) reveals the molecular secrets of carisoprodol, a common muscle relaxant, through computational chemistry methods.
The Invisible Witness: How Light Reveals Copper's Secret Oxidation Life
Breakthrough optical technique decodes the hidden drama of rusting metal with profound implications for electronics, energy, and nanotechnology.
The Ocean's Hidden Pharmacy: Fungal Treasures in Sponges Yield Revolutionary Chromones
Discover how marine sponges and their fungal symbionts produce novel chromone derivatives with potential biomedical applications.
The Electronegativity Breakthrough: How X-Ray Scattering Reveals Chemistry's Most Elusive Rule
Discover how resonant inelastic X-ray scattering (RIXS) is revolutionizing our understanding of electronegativity by measuring it directly at the quantum level.