BUFFALO, N.Y. — Scientists have grown thin films of two different crystalline materials on top of each other using an innovative technique called “dative epitaxy.” The researchers discovered the ...

Figure 1: Organic epitaxy of PTCDA on the Ag(111) surface. It has been a long-standing question why a large molecule like PTCDA, covering more than 15 silver atoms, recognizes and locks into a ...

New system extends ASM’s portfolio of industry benchmark single wafer silicon carbide epitaxy systems, the 6” PE1O6 and 8” PE1O8 systems, with a higher throughput, lower cost of ownership, dual ...

This technique is significant in the development of advanced materials, particularly for applications in microelectronics, nanotechnology, optoelectronics, and renewable energy technologies. The ...

Dublin, Dec. 03, 2025 (GLOBE NEWSWIRE) -- The "Epitaxy Deposition Market - Forecasts from 2025 to 2030" report has been added to ResearchAndMarkets.com's offering. The Epitaxy Deposition Market will ...

Germanium was the material of choice in the early history of electronic devices, and due to its high charge carrier mobility, it's making a comeback. It's generally grown on expensive single-crystal ...

Periods of history are often defined by the materials used to make critical tools — from the stone age to the bronze age to today — a period some experts regard as the silicon age. Silicon is used in ...

Scientists have grown thin films of two different crystalline materials on top of each other using an innovative technique called 'dative epitaxy.' The researchers discovered the method by surprise.

(Nanowerk News) Germanium, an elemental semiconductor, was the material of choice in the early history of electronic devices, before it was largely replaced by silicon. But due to its high charge ...