Add to ORKGA nonlithographic approach to produce self-assembled spatially separated Si structures for nanoelectronic applications was developed, employing the metal-induced silicon growth. Densely packed Si whiskers, 500–800 nm thick and up to 2500 nm long, were obtained by magnetron sputtering of Si on a 25 nm thick Ni prelayer at 575 °C. The nucleation of the NiSi2 compound at the Ni–Si interface followed by the Si heteroepitaxy on the lattice-matched NiSi2 is suggested to be the driving force for the whisker formation
We have investigated a self-assembly process for patterning epitaxial CoSi2, nanowires using local o...
The self organized growth of crystalline silicon nanodots and their structural characteristics are i...
The self-organized growth of crystalline silicon nanodots and their structural characteristics are i...
Self-assembly represents a large prospective class of nanoscale fabrication techniques for future el...
Two-dimensional arrays of self-organized Si nanowires were synthesized using the metal induced growt...
The present study addresses the mechanism of metal-induced growth of device-quality silicon thin fil...
A technological method of thin film silicon growth with an unconventional structure control has been...
The objective of this work is to obtain self-organised growth of magnetic and metallic nanostructure...
We have developed a method for fabricatingepitaxialCoSi₂nanowires using only conventional optical li...
Methods of forming various In nanostructures on Si surfaces are demonstrated. Using a high-index Si(...
Nickel monosilicide (NiSi) nanowires (NWs) have been fabricated in a DC magnetron system by the Meta...
The highly controlled formation of “radial” silicon/NiSi core−shell nanowire heterostructures has b...
The aim of this work is to obtain a very regular alignment of metallic and magnetic nanostructureswi...
Nanoheterostructures of NiSi/Si/NiSi in which the length of the Si region can be controlled down to ...
Si nanowires coated with Ni showed interesting structural transformation behaviors as observed by in...
We have investigated a self-assembly process for patterning epitaxial CoSi2, nanowires using local o...
The self organized growth of crystalline silicon nanodots and their structural characteristics are i...
The self-organized growth of crystalline silicon nanodots and their structural characteristics are i...
Self-assembly represents a large prospective class of nanoscale fabrication techniques for future el...
Two-dimensional arrays of self-organized Si nanowires were synthesized using the metal induced growt...
The present study addresses the mechanism of metal-induced growth of device-quality silicon thin fil...
A technological method of thin film silicon growth with an unconventional structure control has been...
The objective of this work is to obtain self-organised growth of magnetic and metallic nanostructure...
We have developed a method for fabricatingepitaxialCoSi₂nanowires using only conventional optical li...
Methods of forming various In nanostructures on Si surfaces are demonstrated. Using a high-index Si(...
Nickel monosilicide (NiSi) nanowires (NWs) have been fabricated in a DC magnetron system by the Meta...
The highly controlled formation of “radial” silicon/NiSi core−shell nanowire heterostructures has b...
The aim of this work is to obtain a very regular alignment of metallic and magnetic nanostructureswi...
Nanoheterostructures of NiSi/Si/NiSi in which the length of the Si region can be controlled down to ...
Si nanowires coated with Ni showed interesting structural transformation behaviors as observed by in...
We have investigated a self-assembly process for patterning epitaxial CoSi2, nanowires using local o...
The self organized growth of crystalline silicon nanodots and their structural characteristics are i...
The self-organized growth of crystalline silicon nanodots and their structural characteristics are i...