In a recent breakthrough, scientists from Okayama University in Japan developed nanodiamond sensors bright enough for bioimaging, with spin properties comparable to those of bulk diamonds. The study, published in ACS Nano, on 16 December 2024, was led by Research Professor Masazumi Fujiwara from Okayama University, in collaboration with Sumitomo Electric Company and the National Institutes for Quantum Science and Technology.

Research at the University of Birmingham, published in Physical Review Letters, explores the nature of photons (individual particles of light) in unprecedented detail to show how they are emitted by atoms or molecules and shaped by their environment.

A new study published in Physical Review Letters on October 22 has challenged the assumptions by providing direct evidence of the breakdown of spin statistics in ion-atom charge exchange collisions. This study was led by scientists from the Institute of Modern Physics (IMP) of the Chinese Academy of Sciences (CAS).

For the first time, EPFL researchers have exclusively observed molecules participating in hydrogen bonds in liquid water, measuring electronic and nuclear quantum effects that were previously accessible only via theoretical simulations.

Emory chemist Fang Liu received $875,000 from the U.S. Department of Energy (DOE) for her work aimed at optimizing the use of light to spark the transfer of an electron. Known as photoredox catalysis, this powerful chemical process is one of the fastest growing areas of organic synthesis, with applications spanning everything from health care to renewable energy.

A team led by physicists Steffen Sahl and Stefan Hell at the Max Planck Institute for Multidisciplinary Sciences in Göttingen and the Max Planck Institute for Medical Research in Heidelberg has succeeded in measuring distances within biomolecules using a light microscope, down to one nanometer and with Ångström precision. The intra-molecular resolution achieved with MINFLUX microscopy makes it possible to optically record the spatial distances between subunits in macromolecules and thus to detect different conformations of individual proteins in the light microscope.

Researchers from Tohoku University and the Massachusetts Institute of Technology (MIT) have unveiled a new AI tool for high-quality optical spectra with the same accuracy as quantum simulations, but working a million times faster, potentially accelerating the development of photovoltaic and quantum materials.

Phasecraft, the UK quantum company developing world-leading quantum algorithms, today publishes a white paper examining the near-term future of quantum computing. While acknowledging the field’s significant progress, the paper highlights the challenges ahead and calls for sustained investment, international collaboration, and responsible regulation.

A team of researchers led by Professor Christoph Kerzig of Johannes Gutenberg University Mainz (JGU) has now discovered a novel approach for the straightforward preparation of highly efficient dyad photocatalysts. Two commercially available salts are mixed and because of attractive electrostatic interactions, i.e., Coulomb interactions, the photoactive units form an ion pair that allows them to interact synergistically.

A method developed at the University of Bonn could have potential applications for tap-proof communication.