Discover how Research and Reports in Medicinal Chemistry bridges innovation and publication in drug design, AI-driven discovery, and sustainable chemistry. Explore its impact, trends, and submission strategies.
Discover how Earth’s invisible allies—chemical reactions and microbes—work together to break down toxic chlorinated solvents in groundwater, offering a sustainable solution to pollution.
Discover how Japan’s JSPS program bridges continents to harness bioactive natural products from subtropical ecosystems for groundbreaking medicinal chemistry.
Discover how combinatorial chemistry and solid-phase synthesis revolutionize the creation of D- and L-cycloserine derivatives—key players in fighting tuberculosis and neurological disorders.
Explore the fascinating world of organotin(IV) derivatives with imidazoles and pyrazoles. Discover their role in cancer therapy, industrial catalysis, and materials science, backed by cutting-edge research and data-driven insights.
Explore how metal- and photocatalysis are transforming C–S bond functionalization in sulfones, enabling greener, more efficient synthesis of pharmaceuticals and materials.
Explore how René Descartes' groundbreaking theories of mind-body dualism, animal spirits, and mechanical physiology transformed 17th-century medicine and laid foundations for modern neuroscience.
Explore how China combats air pollution using CHIMERE models and satellites. Discover dust impacts, PM trends, and tech breakthroughs in this engaging science deep dive.Keywords: CHIMERE model, mineral dust pollution, PM2.5 trends, remote sensing, China air quality
Explore how NMR spectroscopy revolutionizes organic molecule analysis, from chemical shifts to 3D protein mapping. Discover cutting-edge techniques and real-world applications.Keywords: NMR spectroscopy, organic structure determination, chemical shift, spin-spin coupling, 2D NMR
Explore how natural products chemistry is unlocking groundbreaking therapies, sustainable materials, and cutting-edge technologies—from cancer-fighting compounds to AI-driven discoveries.
Discover how non-intercalative triterpenoids, inspired by nature, could revolutionize cancer therapy by selectively inhibiting Topoisomerase IIα. Explore their unique mechanisms, molecular docking insights, and potential to reduce side effects.
