As the tiny atomic force microscope probe scans the surface of a sample, it can discern what type of molecule is underneath.

The researchers demonstrate a novel, extremely high-performance spectrometer that can measure light with a 0.05 nanometers ...

Scientists successfully increase the measurement rate of Raman spectroscopy, a widely used technique for identifying ...

Depicted in this artist’s rendering is the central black hole, V404 Cygni (black dot), in the process of consuming a nearby ...

A new type of absorbing material developed by chemists at the University of California, Berkeley, could help get the world to ...

A novel low-temperature molten salt etching technique allows the ultrafast synthesis of MXenes, opening new possibilities for ...

Scientists explore the interaction between nanoplastics and natural organic matter through molecular modeling.

Researchers pioneered a new technique to identify and characterize atomic-scale defects in hexagonal boron nitride (hBN).

Researchers integrate a detector system with a 2D polaritonic platform, enabling the detection of 2D polaritonic ...

Nanoscale spinning circles of magnetism may find broad application in microelectronic storage devices, quantum computing, and ...

Researchers developed a technique enabling precise micromolar-level liquid measurement, advancing label-free bio-imaging and ...

A new single-transistor neuron simplifies complex logic functions, enabling compact, energy-efficient neuromorphic systems ...