Defect-free copper pathways let electrons travel with less scattering, pointing to ways of reducing resistance in future ...
Molecular rings reveal how hidden chain length controls stiffness, toughness and elasticity, offering a blueprint for tunable ...
A boron-rich ladder molecule narrows spontaneous emission, improving color purity while exposing stability challenges inside ...
Lithium or sodium substitution turns abundant zinc oxide into a stress-activated near-infrared emitter for self-powered ...
A silicon carbide transistor uses negative differential resistance at millikelvin temperatures to enable low-power local ...
Diamond, long deemed non-piezoelectric, now shows stable voltage generation in ultrathin flexible membranes, unlocking ...
By carefully analyzing the dot’s spectrum captured by Webb — the deepest spectrum to date of a little red dot — the research ...
A new computational method extracts electronic band structures from finite, imperfect, and curved nanomaterials, linking nano ...
Researchers show light can add drag to fluorescent carbon nanotubes in water, revealing quantum friction that may help ...
AI can now predict molecular changes over time, potentially accelerating drug testing and helping identify promising ...
AI method reconstructs missing hydrogen atom positions in crystal databases, enabling faster, more accurate materials ...
Novel nanowire device offers rapid, noninvasive cancer detection The device selectively captured cancer biomarkers from the ...
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