Quantum chemistry is quietly entering a new phase, one where some of the hardest problems in materials science are finally ...

For more than a century, physics has treated space and time as the smooth stage on which the universe unfolds, a flexible ...

Using advanced electron microscopy, researchers have watched individual atoms transition from chaotic liquid motion to ordered solid structure, revealing that the boundary between liquid and solid ...

Electrons determine everything: how chemical reactions unfold, how materials conduct electricity, how biological molecules ...

As intellectual property accounts for up to 70% of value in advanced economies, innovation education is emerging as a cornerstone for Vietnam to prepare its workforce for the knowledge-based era. At ...

Scientists have discovered a way to efficiently transfer electrical current through specific materials at room temperature, a ...

A model developed by researchers at MIT can help predict proton movement inside materials based on hydrogen bond length and ...

New research from Argonne National Laboratory and the UChicago Pritzker School of Molecular Engineering (UChicago PME) has ...

Bell Labs is already highly recognized, but in its centennial year, the organization hoped to add more awards to burnish its ...

This important study reveals that mitotic release of an ER-microtubule tether is critical for normal mitotic progression. Manipulating CLIMP63 phosphorylation, the authors provide convincing evidence ...

Understanding optical resolution is key in microscopy, highlighting the diffraction limit and innovations in super-resolution ...

For centuries, scholars thought they understood how Romans made concrete with exceptional durability. Now, evidence suggests the historical texts describe only part of the picture. Analysis of an ...