New research presents a gyroscopic wave energy converter that absorbs up to 50% of wave energy across frequencies, nearing ...

Researchers create 'living' polymers that grow, degrow, and reprogram their properties after fabrication using reversible chemistry and light-activated catalysts.

Neutral particles can outpace diffusion in electric fields, shifting motion regimes over time; the model predicts behavior in ...

Precise measurements show that future quantum computers may need to correct for errors caused by interference between neighboring quantum dots.

AI-powered spectral sensor performs machine learning during light capture, identifying materials and chemicals in real time ...

Carbon nanotube sandpaper polishes semiconductor surfaces down to a few atoms, reducing defects by 67% and eliminating chemical slurry waste.

New first-principles simulations reveal how metallic surfaces reshape nanoscale vibrational imaging, advancing the ...

Ruthenium-functionalized nanodiamonds generate powerful solvated electrons under visible light, bypassing the deep UV ...

Studying twisted double-bilayer chromium triiodide (CrI₃) with scanning nitrogen–vacancy magnetometry, the authors directly image magnetic fields with nanoscale resolution and observe long-range ...

A new topology-based method predicts atomic charges in metal-organic frameworks from bond connectivity alone, making large-scale computational screening practical.

A new study reveals how neatly ordered (hemi-) spherical or pancake like structures in nature can emerge from completely disordered salt solutions. Moreover, scientists can now harness these ...