Electrochemical crystal growth encompasses methods that utilise controlled electrochemical reactions to foster the formation of high-quality crystalline materials. This approach offers fine control ...

SiC and GaN are clearly making an impact in power RF and power electronics markets, but there remains the persistent challenge of crystal quality, reliability and yield, particularly for very high ...

Researchers have succeeded in forming metal-organic framework thin films on a substrate while controlling the growth direction of crystals so that they are arranged neatly without gaps. The resulting ...

Researchers grow single-crystal GaN films on amorphous glass using a chemically converted molybdenum nitride buffer, removing the need for crystalline substrates in epitaxy (Nanowerk Spotlight) The ...

Inverted perovskite solar cells offer strong potential for scalable, low-cost solar power, but a hidden interface inside the device has limited their performance and durability. Researchers have now ...

Researchers in Taiwan have discovered that in polysilicon production the crucible angular speed affects the oxygen concentration near the crucible wall, which in turn affects the wafers’ mechanical ...

United Semiconductors has made a payload reservation agreement with Starlab Space to transition its semiconductor crystal growth technology from demonstration to commercial-scale production of ...

A material with a high electron mobility is like a highway without traffic. Any electrons that flow into the material experience a commuter’s dream, breezing through without any obstacles or ...

OKI (TOKYO: 6703) has successfully developed Tiling crystal film bonding (CFB; Note 1) technology using its proprietary CFB technology. This technology makes possible the heterogeneous integration of ...

Study compares calcium phosphate mineralization on polydopamine and zein coated titanium dioxide nanoparticles using quartz crystal microbalance measurements.

Researchers from Huazhong University of Science and Technology and Hebei University have optimized the nucleation process by regulating the interactions between the epitaxial layer and the substrate.