Not exact matches
Large - area hexagonal boron
nitride nanomesh can be grown on a single - crystalline rhodium thin film
substrate (shown here).
The resonator is flipped and suspended on top of an acoustic resonator, which consists of a thin aluminum
nitride layer (green) deposited on a thick silicon
substrate.
A superconducting resonator (in yellow) is fabricated in a niobium titanium
nitride film on a sapphire
substrate.
The researchers compared the effect of two different
substrates on the growth of the phosphorene nanoflake — a copper
substrate, commonly used for growing graphene, which bonds with the phosphorene through strong chemical processes, and a hexagonal hydrogen boron
nitride (h - BN)
substrate that couples with the phosphorene via weak van der Waals bonds.
Conventionally, such LEDs require gallium
nitride to be placed on a
substrate of sapphire, with a separate reflector to direct the light.
«Swapping
substrates improves edges of graphene nanoribbons: Using inert boron
nitride instead of silica creates precise zigzag edges in monolayer graphene.»
The sensor read - out can be further optimized by coating a thin layer of silicon
nitride onto the glass
substrate.
Combinatorial depositions with intentional and well - controlled continuous gradients in process parameters (composition, temperature, film thickness, nanoparticle size etc): wide range of thin film chemistries in separate chambers (metals, oxides,
nitrides, sulfides); physical vapor deposition techniques (sputtering, pulsed laser deposition); different
substrates and supports (glass, metals, glassy carbon, etc).
The company's new approach to LEDs revolves around using gallium
nitride (GaN) for the
substrate part of the light.