Skoltech researchers and their colleagues from Ludwig Maximilian University of Munich, Germany, Nanjing University of China, ...

MIT physicists have discovered a resonance in colliding ultracold molecules. The findings shed light on the forces that drive molecules to chemically react and suggest scientists could one day harness ...

The nearly 30-year tale of secalosides A and B began in 1997, when natural product chemists identified them as components of ...

Rye pollen has been demonstrated to able to slow tumour growth in animal models of cancer. To understand more about this, ...

Scaling down information devices to the atomic scale has brought the interest of using individual spins as a basic unit for data storage. This requires precise detection and control of spin states and ...

Nearly three decades ago, scientists found that a pair of molecules in rye pollen exhibited an unusual ability to slow tumor ...

It's driving me nuts. Is the double bond constantly changing between all possibilities fast enough that it shortens the bond length for all, or are all the double bonds existing in all possible states ...

A new method for learning the structures of small molecules, such as hormones, is 'like science fiction.' In a new study that one scientist called jaw-dropping, a joint UCLA/Caltech team has shown ...

In the Centre for Cancer Drug Discovery at The Institute of Cancer Research, London, high-precision technologies are transforming how we uncover the intricate details of molecules and accelerate the ...

Over the past century, experimental physicists and engineers have developed sophisticated methods to create semiconducting silicon-based devices, such as diodes, transistors and memory elements, of ...

Rye pollen slows tumor growth in animal models of cancer. Chemists determined the 3D structure of the bioactive molecules in rye pollen. With new blueprint, researchers could develop strategies for ...