Researchers turn discarded cigarette butts into carbon electrodes for supercapacitors, achieving high energy density, fast charging, and long-term stability from toxic waste.

A study shows that polarons can host stable atomic distortion patterns, reshaping how charge and energy move in materials ...

Researchers developed a vortex method to dry non-aggregated cellulose nanofibers from slurry, offering a more efficient, ...

Molecular electronic devices using quantum tunneling could achieve integration densities 1,000 times greater than silicon chips by combining atomic-precision assembly with three-dimensional ...

Scientists achieve optical measurements at atomic scales using quantum electron tunneling, surpassing conventional microscopy limits by nearly 100,000 times with standard lasers.

A novel study demonstrates that droplets at a miniscule level can be precisely controlled, opening new avenues in micro-scale ...

Freeze-dried hydrogel powders sprayed onto wet surfaces merge into functional coatings in under five seconds, enabling rapid ...

The approach offers a potential alternative to chemotherapy and radiation by using light and heat to target cancer cells.

A new gas sensor using ruthenium dioxide nanosheets achieves ultra-sensitive ethanol detection down to 5 ppb, enabling real-time breath alcohol monitoring at under 30 milliwatts.

Physicists found why holes move slower than electrons in silicon: not defects, but higher intrinsic mass, supporting ...

Using an affordable 3D printer and the CRAFT method, researchers created a model human hand from a single feedstock with distinct domains that mimic the hardness or flexibility of skin, ligaments, ...

Rolling MXene sheets into scrolls at gram scale yields 33-fold conductivity gains and superconductivity at 5.2 K absent in ...