Transition metals have long been used as catalysts to activate small molecules and turn them into valuable products. However, as these metals can be expensive and less abundant, scientists are ...

Boron diffusion is described as very effective only under unconventional process conditions and is recommended for doped-poly-Si/SiOx structures, which provides a route to simultaneously achieve ...

Specifically, hydrogen molecules interacted with both the boron sites and the sodium ... Interactions in Polymer‐Derived Sodium‐Doped Amorphous Si−B−N Ceramic: Towards Main‐Group ...

Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

known as boron-doped diamonds. Their findings could pave the way for new types of biomedical and quantum optical devices—faster, more efficient, and capable of processing information in ways that ...

The modified material was then exposed to flowing ammonia at 1000 °C, which resulted in sodium-doped amorphous silicon-boron-nitride (Na-doped SiBN). Using cutting-edge spectroscopic techniques ...

By adding small amounts of a common element called boron to diamond, a process called “doping,” they’ve created a material that behaves in ways that could revolutionize everything from medical sensors ...