Electronic structure as a research area focuses on the quantum-mechanical description of electrons in atoms, molecules, solids, and nanostructures, and on how this governs their structural, spectroscopic, and transport properties. It encompasses the development and application of theoretical methods such as density functional theory, wavefunction-based quantum chemistry, many-body perturbation theory, and quantum Monte Carlo to compute energies, charge densities, band structures, and excited states. The field underpins predictive materials design, catalysis, electronic and photonic device engineering, and strongly correlated systems research by linking microscopic electron behavior to macroscopic observables and emergent phenomena.
Recent decades have witnessed rapid advancements in high-intensity laser technology. The combination of laser irradiation and novel materials is opening exciting avenues for the design of functional materials and devices. ...
Optics & Photonics
Feb 27, 2026
0
64
Scientists have observed a new microscopic mechanism enabling precise control of the magneto-optical properties of excitons in alloys of two-dimensional semiconductors. This discovery opens up tangible prospects for technological ...
Condensed Matter
Feb 23, 2026
0
48
Recently, a research team led by Prof. Zhao Bangchuan from the Institute of Solid State Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, in collaboration with Prof. Xiao Yao from Wenzhou University, ...
Nanophysics
Feb 14, 2026
0
40
The element cobalt is considered a typical ferromagnet with no further secrets. However, an international team led by HZB researcher Dr. Jaime Sánchez-Barriga has now uncovered complex topological features in its electronic ...
Condensed Matter
Feb 11, 2026
1
111
Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties. Tip-enhanced Raman spectroscopy (TERS) offers extremely high resolution to probe such vibrations. ...
Nanophysics
Feb 11, 2026
0
58
Researchers at the Institute for Molecular Science (NINS, Japan) and SOKENDAI have demonstrated a more than 2000% voltage-induced enhancement of near-field nonlinear optical responses. To achieve this giant modulation, they ...
Optics & Photonics
Feb 3, 2026
0
20
With an advanced technology known as angle-resolved photoemission spectroscopy (ARPES), scientists are able to map out a material's electron energy-momentum relationship, which encodes the material's electrical, optical, ...
Condensed Matter
Feb 2, 2026
0
53
One of the biggest problems facing modern microelectronics is that computer chips can no longer be made arbitrarily smaller and more efficient. Materials used to date, such as copper, are reaching their limits because their ...
Condensed Matter
Jan 29, 2026
0
57
A team of researchers at Monash University has uncovered a powerful new way to engineer exotic quantum states, revealing a robust and tunable three-dimensional flat electronic band in an ultrathin kagome metal, an achievement ...
Condensed Matter
Jan 28, 2026
0
43
It has been revealed that simply twisting and stacking two layers of oxide crystals can allow the atomic arrangement itself to control the behavior of electrons. Much like the new patterns that emerge when two meshes are ...
Nanophysics
Jan 27, 2026
0
27
