Add to ORKGThe morphology of typical CVD diamond thin films has been shown to be controlled by the concentration of methane during deposition. For example, for CH4 concentrations c \u3c 0.4% the (111) faces dominate, while at 0.4% \u3c c \u3c 1.2% (100) faces dominate. Here we showed that the (100) oriented diamond films can be grown on top of the microcrystalline ball-like particles under suitable conditions. These (100) oriented diamond films are grown under the condition of 1.5% methane in hydrogen, substrate temperature of 680 °C-750 °C, and pressure of 30–80 Torr. The bombardment of the diamond thin films by ions in the plasma is believed to be an important factor for the formation of (100) oriented films on top of the ball-like particles. SEM, R...
Diamond coatings are employed to yield significant benefits in applications such as for cutting tool...
The development of vapor deposited diamond for optical, electronic, and protective applications has ...
A three-step process was used to prepare high quality [001]-oriented diamond films. First, diamond c...
The morphology of typical CVD diamond thin films has been shown to be controlled by the concentratio...
[[abstract]]Diamond films were produced on Si(100) substrates by decomposing gaseous mixtures of met...
The preparation of diamond layers and their (nano-) structures requires the optimization of several ...
Polycrystalline diamond films with a predominant (100) texture were deposited onto silicon substrate...
The textures, surface morphologies, structural perfection, and properties of diamond films grown by ...
[[abstract]]Ultrananocrystalline diamond (UNCD) film is deposited at a substrate temperature lower t...
A diamond film was synthesized by chemical vapor deposition, where a hot graphite plate was used to ...
[[abstract]]High purity diamond films were successfully grown on various substrate materials, includ...
[[abstract]]Diamond thin films were prepared by decomposition of methane and hydrogen in a microwave...
(111) diamond microcrystals and (100) diamond microcrystals and nanorods were synthesized on Si subs...
Nanocrystalline diamond thin films have been produced by microwave plasma-enhanced chemical vapor de...
Smoot (100)-faceted diamond films have been prepared by microwave-assisted chemical vapour depositio...
Diamond coatings are employed to yield significant benefits in applications such as for cutting tool...
The development of vapor deposited diamond for optical, electronic, and protective applications has ...
A three-step process was used to prepare high quality [001]-oriented diamond films. First, diamond c...
The morphology of typical CVD diamond thin films has been shown to be controlled by the concentratio...
[[abstract]]Diamond films were produced on Si(100) substrates by decomposing gaseous mixtures of met...
The preparation of diamond layers and their (nano-) structures requires the optimization of several ...
Polycrystalline diamond films with a predominant (100) texture were deposited onto silicon substrate...
The textures, surface morphologies, structural perfection, and properties of diamond films grown by ...
[[abstract]]Ultrananocrystalline diamond (UNCD) film is deposited at a substrate temperature lower t...
A diamond film was synthesized by chemical vapor deposition, where a hot graphite plate was used to ...
[[abstract]]High purity diamond films were successfully grown on various substrate materials, includ...
[[abstract]]Diamond thin films were prepared by decomposition of methane and hydrogen in a microwave...
(111) diamond microcrystals and (100) diamond microcrystals and nanorods were synthesized on Si subs...
Nanocrystalline diamond thin films have been produced by microwave plasma-enhanced chemical vapor de...
Smoot (100)-faceted diamond films have been prepared by microwave-assisted chemical vapour depositio...
Diamond coatings are employed to yield significant benefits in applications such as for cutting tool...
The development of vapor deposited diamond for optical, electronic, and protective applications has ...
A three-step process was used to prepare high quality [001]-oriented diamond films. First, diamond c...