Historically, exciton-coupled chiral materials were made from organic, carbon-based molecules. Creating them from inorganic ...

Unlike metals or even other doped semiconductors, boron-doped diamonds remain optically clear. "Diamond continues to shine" said Giuseppe Strangi, professor of physics at Case Western Reserve ...

However, precise control over nanomaterial interactions has made it challenging to create such materials using inorganic semiconductors, which offer greater stability and tunable optical properties.

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

Unlike metals or even other doped semiconductors, boron-doped diamonds remain optically clear. “Diamond continues to shine” said Giuseppe Strangi, professor of physics at Case Western Reserve, “both ...

Unlike metals or even other doped semiconductors, boron-doped diamonds remain optically clear. Subscribe to Technology Networks’ daily newsletter, delivering breaking science news straight to your ...