A novel method of characterizing the structural and chemical evolution of silicon and a thin layer that governs battery stability may help resolve issues that prevent using silicon for high-capacity batteries, according to a group of researchers.

For the first time, an international research team demonstrate 180 degree magnetization reversal purely by electric fields via magneto-ionic control of ferrimagnets.

The new radar absorbing polymer composite has excellent magnetic and microwave properties. It can absorb 99.9% of the incoming electromagnetic radiation, which makes it a promising absorption block in electromagnetic interference (EMI) shielding applications.

Magnetic skyrmions are potential information carriers in future spintronic devices, and an effective method to confine and protect them in magnetic materials has been realized by scientists.

Scientists introduce an approach for trapping and moving a nanomaterial known as a single colloidal nanodiamond with nitrogen-vacancy center using low power laser beam.

Electrical engineers have developed a more efficient way of converting light from one wavelength to another, opening the door for improvements in the performance of imaging, sensing and communication systems.

Research with nanowires reveals electrolyte's role in blocking electrical current inside silicon anodes and suggests coating might solve the problem.

The material offers the high performance and stability needed for industrial-scale electrolysis, which could produce a clean energy fuel from seawater.

The novel visualization of viruses has implications for developing better treatments and vaccines.