The growing popularity of electronic devices—from fitness trackers and laptops to smartphones—is driving demand for more ...

The atomic lattice structure of the layered magnetic semiconductor chromium sulfide bromide (CrSBr) have magnetic moments, or spins, that align with each other and alternate on each layer. This ...

Organic semiconductors have emerged as a promising alternative to their inorganic counterparts owing to their versatility, low-cost fabrication and tunable electronic characteristics. These ...

2D materials are widely seen as a promising path toward better computer chips. Researchers at TU Wien have now shown that ...

A team of researchers at the University of Minnesota has developed a next-generation transparent and efficient semiconductor material. This breakthrough could have enormous ramifications for improving ...

AZoM speaks to Empower Materials to find out the A-Z of QPAC polymer binders in semiconductor and AlN fabrication.

Researchers have demonstrated that by using a semiconductor with flexible bonds, the material can be moulded into various structures using nano containers, without altering its composition, the ...

A programmable semiconductor changes its electronic properties under UV light and reverts under a different wavelength, enabling optical writing and reading for potential computing applications.

Promising 2D materials may face an unexpected obstacle at the atomic scale: a tiny gap at their interfaces. For decades, the ...

Semiconductor nanoparticles typically consist of a crystalline core made from a semiconductor material, such as cadmium selenide (CdSe), cadmium sulfide (CdS), or indium phosphide (InP). The core is ...

A University at Buffalo-led team has found a way to help chiral semiconductors, electronic materials whose structures are ...