Computational method accurately predicts the optimal ligand for a photochemical palladium catalyst that enables new alkyl ketone radical reactions.

An international research team reveals consistent growth in PFAS research by conducting bibliometric analysis of 1,281 ...

A research team has uncovered how peanuts develop their remarkable underground pods by constructing the first single-cell ...

A new study has uncovered alarming evidence that bisphenols (BPs) —plastic-related chemicals known to disrupt hormones—are ...

Standard laboratory tests can fail to detect many disease-causing DNA changes. Now, a novel 3D chromosome mapping method can ...

A tiny neural network is sufficient to control the daily rhythm of the fruit fly, Drosophila melanogaster. Researchers at the ...

A recent study published in Life Metabolism by Wu et al. from Dalian Medical University addresses this knowledge gap. The ...

In Northern Syria, at Tell Sabi Abyad, lies a treasure trove of history—over 7,000 years old. Here, ancient Neolithic ...

A research team has successfully engineered a japonica rice variety using CRISPR/Cas9 to simultaneously optimize plant ...

Using robotics, computer vision and AI, startup QTPIE has developed the world’s first automated driving test system. Now ...

A new study by the Hebrew University has developed a rapid imaging method that reveals how drugs move through the skin, in ...

Using state-of-the-art equipment, the EHU researchers analysed the capacity of ultrablack copper cobaltate nanoneedles to ...