Add to ORKGWe investigated the influence of a hydrogenated disordered carbon (a-C:H) layer on the nucleation of diamond. Substrates c-Si, SiAlON, and highly oriented pyrolytic graphite {0001} were used in this study. The substrate surfaces were characterized with Auger electron spectroscopy (AES) while diamond growth was followed with Raman spectroscopy and scanning electron microscopy (SEM). It was found that on silicon and SiAlON substrates the presence of the a-C:H layer enabled diamond to grow readily without any polishing treatment. Moreover, more continuous diamond films could be grown when the substrate was polished with diamond powder prior to the deposition of the a-C:H layer. This important result suggests that the nucleation of diamond occu...
A cross-sectional high-resolution transmission electron microscopy (HRTEM) study of a film deposited...
With the large differences in surface energy between film and substrate in combination with the low...
Diamond crystallites and continuous films were deposited on (100) silicon by microwave plasma assist...
We investigated the influence of a hydrogenated disordered carbon (a-C:H) layer on the nucleation of...
Diamond growth on Si(100) is studied by scanning Auger microscopy (SAM), Auger electron spectroscopy...
4H-silicon carbides deposited by diamond films have wide applications in many fields such as semicon...
Diamond nucleation and growth from submicron clusters consisting of an amorphous carbon phase with p...
Diamond particles and films were grown on graphite substrates using hot-filament CVD method with a p...
A diamond nucleation site responsible for epitaxial growth of diamond on silicon by chemical vapor d...
Deposition of 1000 eV pure carbon ions onto Si(001) held at 800 degrees C led to direct nucleation o...
The diamond nucleation and growth processes on a scratched and a virgin Si(100) surface were studied...
The synthesis of thin diamond films using various chemical vapor deposition methods has received sig...
In this work we present a characterization by Auger electron spectroscopy (AES) and scanning electro...
The mechanisms involved in the diamond nucleation on 3C–SiC surfaces have been investigated using a ...
A cross-sectional high-resolution transmission electron microscopy (HRTEM) study of a film deposited...
With the large differences in surface energy between film and substrate in combination with the low...
Diamond crystallites and continuous films were deposited on (100) silicon by microwave plasma assist...
We investigated the influence of a hydrogenated disordered carbon (a-C:H) layer on the nucleation of...
Diamond growth on Si(100) is studied by scanning Auger microscopy (SAM), Auger electron spectroscopy...
4H-silicon carbides deposited by diamond films have wide applications in many fields such as semicon...
Diamond nucleation and growth from submicron clusters consisting of an amorphous carbon phase with p...
Diamond particles and films were grown on graphite substrates using hot-filament CVD method with a p...
A diamond nucleation site responsible for epitaxial growth of diamond on silicon by chemical vapor d...
Deposition of 1000 eV pure carbon ions onto Si(001) held at 800 degrees C led to direct nucleation o...
The diamond nucleation and growth processes on a scratched and a virgin Si(100) surface were studied...
The synthesis of thin diamond films using various chemical vapor deposition methods has received sig...
In this work we present a characterization by Auger electron spectroscopy (AES) and scanning electro...
The mechanisms involved in the diamond nucleation on 3C–SiC surfaces have been investigated using a ...
A cross-sectional high-resolution transmission electron microscopy (HRTEM) study of a film deposited...
With the large differences in surface energy between film and substrate in combination with the low...
Diamond crystallites and continuous films were deposited on (100) silicon by microwave plasma assist...