The synthesis of bioactive compounds occupies a pivotal role at the convergence of synthetic chemistry and biomedicine, driving innovation in therapeutic and nutritional applications. Advanced ...

Phytoalexins are bioactive phytochemicals that have attracted much attention in recent years due to their health-promoting effects in humans and their vital role in plant health. Chemists at TU ...

The natural world is rich in chemical compounds with remarkable medicinal properties. A notable example is penicillin, discovered by chance from the Penicillium mold. This discovery revolutionized the ...

Triterpenoid saponins are key bioactive compounds responsible for the medicinal value of many plants, yet how plants regulate the balance between saponin production and sterol biosynthesis has ...

Jian HE, Professor from the Department of Chemistry at the University of Hong Kong (HKU), is leading a research project that aims to transform organic synthesis. His group has created a new ...

Sustainability is increasingly shaping how chemists design, synthesize, analyze, and manufacture molecules and complex mixtures that underpin ...

Lignin—a tough, mixed polymer found in plant cell walls—is nature’s most abundant stockpile of aromatic functional groups. Because of this, lignin’s rich natural complexity could be a well of new ...

Nagoya University scientists have created an iron-based photocatalyst that uses blue LEDs to synthesize medicinal compounds ...

Photocatalysts facilitate chemical reactions by absorbing light. Metal-based photocatalysts are widely used in organic ...

Researchers at Nagoya University have created a more efficient iron-based photocatalyst that could reduce the need for rare and expensive metals in advanced chemistry. Unlike earlier designs, the new ...