Wafer reproduction of nanowires Silicone wafer and Mounting or growth of nanowire particles

Note: Silicon wafer substrates can be used for sample substrates, micro-fabrication, substrate for nanowires or biological substrates.

Useful flat bed of particles Silicone wafers bonded with nanowires and  for applications Biologically, Si (silicon wafer) has properties similar to glass and can be used to mount or grow particles of nanowires. It can be easily wiped or used as a whole wafer for nanowire reproduction.Silicon nanowire arrays or SiNWs are vertical arrays of nanowires. The silicon wafers are flat on the crystalline silicon wafer substrate. These nanowires are made by a catalytic oxidation and dissolution of Si in the presence of metal catalyst nanoparticles - a self-organized process commonly referred to as a metal-chemically assisted process. /span> For nanoelectronics applications, it is an ideal sample substrate for small nanoscale particles due to its low background signal and highly polished surface. are known. , silicon resembles glass, and this makes it a suitable support for the growth and/or nanoparticle mounting of nanowires. Silicone wafers

The processes of nanowires reproduction on  Silicone wafers make the Si Nanowire arrays reproduce more uniformly. , and allow the properties of nanowires to be tuned. The process of nanowire propagation always involves the deposition of a metal and graft in a solution containing hydrofluoric acid (HF) and an oxidant. Silicon is produced only where metal nanoparticles touch silicon, as a result of electrochemical reactions with the help of nanoparticles Whatever silicon is carried , the nanoparticles move into the resulting nanoparticles. Since silicon is only locally arched, this process can lead to very high aspect ratio features in nanowires.

Conclusion :

Silicone wafers For biological applications, silicon is similar to glass, which makes it a suitable support for the growth and/or mounting of nanoparticles. be the wires For nanoelectronics applications, it is an ideal sample substrate for small nanoscale particles due to its low background signal and highly polished surface.