By placing single-atom-thick adlayers of p-block metals on commonly employed gold electrodes (d-block), a research team at National Taiwan University has successfully quantified the "interfacial ...

Thanks to the alternating single-double nature of the bonds, electrons in these orbitals end up delocalized; the differences between the bonds become a bit irrelevant, and the molecule is best viewed ...

Add Yahoo as a preferred source to see more of our stories on Google. Illustration of an atomic nucleus with bright electron paths encircling it To study the inner workings of an atom's nucleus, ...

UC Riverside scientists have developed a nanopore-based tool that could help diagnose illnesses much faster and with greater precision than current tests allow, by capturing signals from individual ...

(Nanowerk News) Physicists are getting closer to controlling single-molecule chemical reactions – could this shape the future of pharmaceutical research? Controlling matter at the atomic level has ...

Quantum-Si Announces the Release of Two New Manuscripts Demonstrating the Value of Single-Molecule Protein Sequencing in Clinical Proteomics and Pathogen & Toxin Detection Quantum-Si Incorporated ...

The creation of a new magnetic molecule could pave the way to build new, stamp-sized hard drives capable of holding the equivalent of 40,000 CDs' worth of music—that's three years of nonstop tunes!

Light field microscopy (LFM) is a revolutionary technique first introduced in 2006 which can essentially capture a 3D volume in a single snapshot, complete with digital refocusing and deconvolution.

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.