Sentences with phrase «vapour deposition»

This watch is made from forged stainless steel with a physical vapour deposition (PVD) coating.

Nitrogen trifluoride, or NF3, is used in the electronics industry mainly to flush out the by - products of chemical vapour deposition.

Still, for those looking for the toughest finish on the market, consider faucets finished using the physical vapour deposition (PVD).

That had been achieved by a complex «Physical Vapour Deposition» process» giving a lustrous and highly durable finish to all stainless steel components.

That one featured a black - on - black color scheme that was created through a process called Physical Vapour Deposition (PVD).

In addition to the creation of this luxury material, the air vents on the dash and in the rear of Black Badge motor cars have been darkened through the use of Physical Vapour Deposition.

A complex «Physical Vapour Deposition» process is applied to all stainless steel components to give a lustrous and highly durable finish.

* Form follows function: distinctive centre air intake and vertical grilles feed larger volume of air (+ 10 %) to turbocharger intercoolers while bonnet vents extract hot air from engine bay * Subtly curved rear wheel arches with newly tooled side panels accommodate increased rear track of the uprated chassis and provide muscular stance * Distinctive «smoked steel finish» to all exterior «brightware», including the first automotive application of «Physical Vapour Deposition'to stainless steel * Larger, twin elliptical exhaust tailpipes and rear valance with discreet vertical divider * 2 new pearlescent and 2 new matt finish colours * Unique driver - focused, two - seater cabin with lightweight sports seats, giving a 45 kg (99 lb) weight saving * Rear seats replaced by stowage deck with carbon fibre luggage retaining beam * AlcantaraTM, carbon fibre and «Soft Touch» leather provide a very different interpretation of Bentley craftsmanship with choice of Single Tone and Duo Tone combinations

Previous studies have pointed towards the role of corannulenes and sumanenes in graphene fabrication, particularly under certain conditions for the commonly adopted chemical vapour deposition (CVD) approach.

Catalytically growing graphene (a sheet of carbon just one atom thick) and other 2D materials on polycrystalline metal foils by chemical vapour deposition (CVD) is one of the best ways to fabricate continuous sheets of these nanostructures.

The team coated a silicon wafer with a layer of upright nanotubes, spaced 100 nanometres apart through a process called chemical vapour deposition.

In this study, the researchers, from Arizona State University, used a process known as chemical vapour deposition to create a 41 micrometer - long nanosheet made from Cadmium Sulphide and Cadmium Selenide powders, using silicon as a substrate.

The artificial synaptic TFT consisted of indium zinc oxide (IZO), as both a channel and a gate electrode, separated by a 550 - nanometre - thick film of nanogranular silicon dioxide electrolyte, which was fabricated using a process known as chemical vapour deposition.

The team used a plasma - enhanced chemical vapour deposition (PECVD) process to grow the carbon nanotubes, while optimizing the plasma growth conditions to produce MWCNTs with tips made of deployed graphene sheets.

This discovery challenges a previously accepted view that metal carbides are needed to create nanotubes, through a process called chemical vapour deposition.

CNTs are often synthesised via chemical vapour deposition, in which hydrocarbon vapour is deposited on metal catalysts under a flow of non-reactive gas at high temperatures.

Synthesis of graphene via chemical vapour deposition (CVD) of methane gas onto a copper substrate is the most common way of producing the quantity and quality of material required for electronic applications.

«Chemical vapour deposition is a highly scalable and cost - efficient technology,» says Christoph Stampfer, head of the 2nd Institute of Physics A in Aachen, and co-author of the technical article.

To that end, Graphene Flagship researchers have developed a novel variant on the chemical vapour deposition process which yields high quality material in a scalable manner.

Most of the latent heat contained in water vapour is subsequently released to the atmosphere during the formation of precipitating clouds, although a minor amount may be returned directly to the surface during dew or frost deposition.

In the atmosphere, aerosols serve as initiation sites for the condensation or deposition of water vapour.

In this type of cloud, ice crystals can grow directly from the deposition of water vapour.

Deposition nuclei are analogous to condensation nuclei in that water vapour directly deposits as ice crystals on the aerosol.