Add to ORKGA method of producing diamond or diamond like films in which a negative bias is established on a substrate with an electrically conductive surface in a microwave plasma chemical vapor deposition system. The atmosphere that is subjected to microwave energy includes a source of carbon, nitrogen and hydrogen. The negative bias is maintained on the substrate through both the nucleation and growth phase of the film until the film is continuous. Biases between -100V and -200 are preferred. Carbon sources may be one or more of CH4, C2H2 other hydrocarbons and fullerenes
The demand for synthetic diamonds and research on their use in next-generation semiconductor devices...
Nanocrystalline diamond films have been synthesized by microwave plasma enhanced chemical vapor depo...
The field emission properties of thin, fine-grained diamond films were investigated by measuring emi...
Diamond growth was carried out using various kinds of substrates and substrate holders in convention...
International audienceIn the case of diamond films synthesized by the microwave plasma assisted chem...
A very high vacuum compatible microwave plasma chemical vapor deposition system has been fabricated ...
This work reports both numerical and experimental studies of the reconditioning of a microwave plasm...
A method is provided for growing a diamond thin film on a selected substrate. First the substrate is...
We studied the growth of microcrystalline diamond films on pre-treated Si and WC-Co substrates by mi...
Diamond films were deposited by microwave plasma chemical vapor deposition onto single-crystal (111)...
[[abstract]]To synthesize diamond films by microwave plasma enhanced chemical vapor deposition (MPEC...
Diamond was grown on polycrystalline CoSi2/Si substrates by bias-enhanced microwave plasma chemical ...
[[abstract]]In this study a planar large-area microwave plasma source is used to grow diamond films ...
In this paper, the best conditions for the deposition of the high quality diamond thin-film from N-h...
[[abstract]]Commercial diamond powders are in irregular shapes and have been used as seeds for growi...
The demand for synthetic diamonds and research on their use in next-generation semiconductor devices...
Nanocrystalline diamond films have been synthesized by microwave plasma enhanced chemical vapor depo...
The field emission properties of thin, fine-grained diamond films were investigated by measuring emi...
Diamond growth was carried out using various kinds of substrates and substrate holders in convention...
International audienceIn the case of diamond films synthesized by the microwave plasma assisted chem...
A very high vacuum compatible microwave plasma chemical vapor deposition system has been fabricated ...
This work reports both numerical and experimental studies of the reconditioning of a microwave plasm...
A method is provided for growing a diamond thin film on a selected substrate. First the substrate is...
We studied the growth of microcrystalline diamond films on pre-treated Si and WC-Co substrates by mi...
Diamond films were deposited by microwave plasma chemical vapor deposition onto single-crystal (111)...
[[abstract]]To synthesize diamond films by microwave plasma enhanced chemical vapor deposition (MPEC...
Diamond was grown on polycrystalline CoSi2/Si substrates by bias-enhanced microwave plasma chemical ...
[[abstract]]In this study a planar large-area microwave plasma source is used to grow diamond films ...
In this paper, the best conditions for the deposition of the high quality diamond thin-film from N-h...
[[abstract]]Commercial diamond powders are in irregular shapes and have been used as seeds for growi...
The demand for synthetic diamonds and research on their use in next-generation semiconductor devices...
Nanocrystalline diamond films have been synthesized by microwave plasma enhanced chemical vapor depo...
The field emission properties of thin, fine-grained diamond films were investigated by measuring emi...