Discover how scientists use cutting-edge electrochemical methods to study morin and rutin in black tea, lemongrass, and fruit infusions—and why pH holds the key to unlocking their health benefits.
Explore how cutting-edge beta cyclodextrin derivatives enhance drug solubility, target specific tissues, and overcome biological barriers—ushering in a new era of precision medicine.
Explore how chemists control reaction pathways in asymmetric organocatalysis to create drugs and bioactive molecules with precision. Discover the magic of chemoselective switches!Keywords: asymmetric organocatalysis, chemoselective switch, 5H-oxazol-4-ones, N-Itaconimides, tandem reactions
Explore how Vietnam’s Tam Giang Lagoon—home to 947 species and a million people—faces ecological crises, embraces participatory research, and battles climate threats.
Discover the groundbreaking discovery of Burkholderia rhizoxinica, a bacterial endosymbiont that produces rhizoxin—a toxin with anticancer potential—inside the fungus Rhizopus microsporus. Explore its unique biology, genetic secrets, and ecological intrigue.
Discover how almond hulls—a overlooked agricultural byproduct—are transformed into antioxidants, biofuels, and pharmaceuticals using eco-friendly biomimetic techniques.
Explore how hydroxyl radicals act as Earth’s atmospheric detoxifiers, breaking down pollutants like isoprene and terpenes, and why temperature plays a crucial role in this invisible chemistry.
Discover how natural and artificial cross-links transform collagen fibers into durable leather, revealed through cutting-edge small-angle neutron scattering (SANS) technology.
Discover how ionic liquids are transforming the synthesis of bioactive heterocycles—from antibiotics to cancer drugs—with 99% yields, reusable catalysts, and zero toxic waste.
Explore the groundbreaking role of marine-derived compounds in cancer therapy, their unique mechanisms of action, and their potential to overcome drug resistance. Discover the latest discoveries and clinical advancements.
Explore the cutting-edge science of activating organic nitriles using metal and non-metal catalysts. Discover breakthroughs in sustainable chemistry, reaction mechanisms, and real-world applications.
Explore the architectural marvels, iconic exhibits, and groundbreaking research at New York's American Museum of Natural History, where 34 million specimens meet cutting-edge science.
