Physicists have directly visualized the fundamental electronic building blocks of flat-band quantum materials, a class of systems in which electron motion is effectively quenched and strong ...

Organic light-emitting diodes (OLEDs) have become a cornerstone in display and lighting technologies, driving the demand for efficient organic thermally activated delayed fluorescence (TADF) materials ...

This, in turn, altered the configuration of the orbitals to achieve the half-Möbius configuration that the researchers were ...

By placing single-atom-thick adlayers of p-block metals on commonly employed gold electrodes (d-block), a research team at ...

In a study recently published in Nature Physics, Qimiao Si's group at Rice University collaborated with researchers from the Weizmann Institute to ...

For advancing photoemission orbital tomography (POT), researchers proposed a simple, low-cost, and robust “PhaseLift POT” method, which enables a 3D reconstruction of 3D molecular orbitals from a ...

Single-atom catalysts (SACs), with their excellent metal atom utilization and unique physicochemical properties, hold promise for broad applications, especially in heterogeneous catalysis and energy ...

Researchers have designed and synthesized a new organic semiconductor for organic solar cells (OSCs). By adding specific side units to their structure, they achieved separation between the frontier ...

An international team of researchers at University of Manchester have created and characterised a molecule with properties never previously observed, using quantum computing to confirm its unusual ...

By placing single-atom p-block metal adlayers on gold electrodes, researchers quantified the interfacial hopping integral, ...