Add to ORKGIn the present paper two methods are presented allowing the preparation of diamond films, in which the crystallites have lost one, two and three degrees of freedom, resp. By an appropriate control of the growth process diamond films with fiber texture can be fabricated, in which axes of individual crystals are restricted to make a given angle with the film normal, which in a perfectly textured film is zero (loss of one and two degrees of freedom, resp.). Three degrees of orientational freedom are lost in epitaxial and heteroepitaxial films, in which the regularity of a substrate lattice imposes a complete or nearly complete orientation onto the (nuclei of the) growing film. As far as epitaxial growth is concerned, the present article will ...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
A direct diamond epitaxy on the silicon substrate is demonstrated not only at the interface formed d...
Epitaxial (001) diamond films were grown on mirror- polished monocrystalline (001) silicon substrate...
Fibre textured as well as heteroepitaxially textured diamond films have been grown by microwave plas...
Heteroepitaxial (001)-oriented diamond films with considerably increased lateral grain size and stro...
A method allowing heteroepitaxial CVD growth of diamond on single-crystalline silicon substrates has...
After the successful controlled heteroepitaxial nucleation of diamond on 3C‐SiC epitaxial films and ...
This paper reports the progresses made recently on the nucleation and growth of high-quality, [001]-...
By using the straight hot filament chemical vapor deposition method with one falt horizontal filamen...
Highly oriented diamond films have been deposited on mirror-polished single crystalline (100) silico...
Oriented diamond films have been grown on Si(001) and Si(111) substrates by microwave plasma chemica...
The quality of thin epitaxial diamond films on silicon and fullerene films on mica is limited by lat...
Very thin diamond films (thickness ∼0.1 μm) have been investigated by x‐ray diffraction pole figure ...
Heteroepitaxial nucleation of diamond from the gas phase can be achieved on silicon substrates and o...
(100) textured diamond film and (100) epitaxially textured diamond films are one of the most interes...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
A direct diamond epitaxy on the silicon substrate is demonstrated not only at the interface formed d...
Epitaxial (001) diamond films were grown on mirror- polished monocrystalline (001) silicon substrate...
Fibre textured as well as heteroepitaxially textured diamond films have been grown by microwave plas...
Heteroepitaxial (001)-oriented diamond films with considerably increased lateral grain size and stro...
A method allowing heteroepitaxial CVD growth of diamond on single-crystalline silicon substrates has...
After the successful controlled heteroepitaxial nucleation of diamond on 3C‐SiC epitaxial films and ...
This paper reports the progresses made recently on the nucleation and growth of high-quality, [001]-...
By using the straight hot filament chemical vapor deposition method with one falt horizontal filamen...
Highly oriented diamond films have been deposited on mirror-polished single crystalline (100) silico...
Oriented diamond films have been grown on Si(001) and Si(111) substrates by microwave plasma chemica...
The quality of thin epitaxial diamond films on silicon and fullerene films on mica is limited by lat...
Very thin diamond films (thickness ∼0.1 μm) have been investigated by x‐ray diffraction pole figure ...
Heteroepitaxial nucleation of diamond from the gas phase can be achieved on silicon substrates and o...
(100) textured diamond film and (100) epitaxially textured diamond films are one of the most interes...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
A direct diamond epitaxy on the silicon substrate is demonstrated not only at the interface formed d...
Epitaxial (001) diamond films were grown on mirror- polished monocrystalline (001) silicon substrate...