Lightweight, robust, radiation-resilient photovoltaics are critical technologies for many aerospace applications. OPV cells ...

As great as silicon is for semiconductor applications, it has one weakness in that using it for lasers isn’t very practical. Never say never though, as it turns out that you can now grow ...

Quantum dots are widely used for their ability to emit single photons at specific wavelengths. These photons are created by ...

Since the early 1970s, scientists have been promoting gallium arsenide as a faster, more efficient substrate material than silicon for making integrated-circuit chips. However, the vast majority of ...

T oday, silicon photonic circuits connect server racks and play key roles in chemical sensors, biosensors, and LIDAR for self ...

Scientists successfully used 13,000 nuclear spins in a gallium arsenide (GaAs) quantum dot system to create a scalable ...

Laser Diode Industry size is expected to register 14.4% CAGR between 2025 and 2034 propelled by rise in development of ...

For example, US imports of gallium metal and gallium arsenide wafers in 2022 were valued at only about $225 million, according to government data. But their use in strategic industries means any ...

Scientists have harnessed many-body physics to transform quantum dots into scalable, stable quantum nodes. By entangling ...

In a groundbreaking achievement for quantum technologies, researchers have created a functional quantum register using the atoms inside a semiconductor quantum dot.

Radiation testing suggests that solar cells made from carbon-based, or organic, materials could outperform conventional silicon and gallium arsenide for generating electricity in the final ...