A flexible magnetic soft robot using magnetorheological fluids navigates the gastrointestinal tract, folds to fit narrow ...

Biochar is widely studied for carbon capture but a new study challenges the assumption that only the smallest pores matter showing larger pores may contribute more actively.

Researchers found a freshwater alga captures far-red light by precisely arranging ordinary chlorophyll molecules rather than using new pigments opening doors for bioenergy and protein design.

Physicists have detected laser-assisted electron scattering using circularly polarized light for the first time, revealing new ways to probe atomic-scale chirality.

Researchers directly observed electron-hole pairs in light-emitting electrochemical cells, finding that ion-driven electric field changes affect recombination and that stable, lower-voltage fields ...

The ratio of palladium to copper in an electrocatalyst governs syngas composition from CO2, shaping downstream carbon ...

With countless material candidates and limited lab time, a digital materials ecosystem combines AI and multiple tools into ...

An extensive computational study predicts that gold nanoclusters could selectively recognize chiral biomolecules. This ...

Atomic-level simulations and electrochemical experiments reveal how charge centers called polarons form on semiconductor surfaces to activate green hydrogen production.

By placing single-atom p-block metal adlayers on gold electrodes, researchers quantified the interfacial hopping integral, establishing a universal descriptor for single-molecule junction conductance.

Atomic force microscopy reveals three distinct dynamic states in individual polymer chain segments on surfaces, challenging ...

Researchers developed a method that gradually adds and removes atoms in simulations, enabling realistic modeling of crystal defects that affect material strength.