Deposition of diamond films onto various substrates can result in significant technological advantages in terms of functionality and improved life and performance of components. Diamond is hard, wear resistant, chemically inert, and biocompatible. It is considered to be the ideal material for surfaces of cutting tools and biomedical components. However, it is well known that diamond deposition onto technologically important substrates, such as co-cemented carbides and steels, is problematic due to carbon interaction with the substrate, low nucleation densities, and poor adhesion. Several papers previously published in the relevant literature have reported the application of interlayer materials such as metal nitrides and carbides to provide...
Diamond films have been deposited by hot filament chemical vapor deposition on hot-pressed silicon n...
CVD of a range of thin films has been employed extensively in the semiconductor industry where, in a...
The deposition of diamond films on a silicon nitride (Si3N4) substrate is an attractive technique fo...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
In this report, we present a study of diamond deposition on pure and nitrided chromium substrates us...
Diamond films have been deposited by hot filament chemical vapor deposition on hot-pressed silicon n...
Diamond films have been deposited by hot filament chemical vapor deposition on hot-pressed silicon n...
CVD of a range of thin films has been employed extensively in the semiconductor industry where, in a...
The deposition of diamond films on a silicon nitride (Si3N4) substrate is an attractive technique fo...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
Deposition of diamond films onto various substrates can result in significant technological advantag...
In this report, we present a study of diamond deposition on pure and nitrided chromium substrates us...
Diamond films have been deposited by hot filament chemical vapor deposition on hot-pressed silicon n...
Diamond films have been deposited by hot filament chemical vapor deposition on hot-pressed silicon n...
CVD of a range of thin films has been employed extensively in the semiconductor industry where, in a...
The deposition of diamond films on a silicon nitride (Si3N4) substrate is an attractive technique fo...