Weizmann Institute of Science-led researchers have unveiled a computational workflow that crafts enzymes exhibiting catalytic efficiencies surpassing 100,000 M −1 s −1, achieving performance ...

The Diels–Alder reaction has emerged as a pivotal tool in the assembly of complex natural products, enabling the rapid construction of six-membered ring systems with high levels of regio- and ...

A research team led by Prof. Xiaoqiang Huang from Nanjing University has achieved a major breakthrough in the field of asymmetric electroenzymatic catalysis, developing a novel non-natural dynamic ...

Penn State researchers have uncovered a surprising twist in a foundational chemical reaction known as oxidative addition. Typically believed to involve transition metals donating electrons to organic ...

The research team identified fluoride-based molten salt systems as the optimal target material due to their higher bremsstrahlung energy loss rate and superior photon yield, which contribute to a ...