Researchers at Hokkaido University describe a novel method of making high quality vertical nanowires with full control over their size, density and distribution over a semi-conducting substrate. The findings are reported in the Japanese Journal of Applied Physics.
Nanowires hold interesting properties that are not found in bulk materials, making them useful in components for novel electronic and photonic devices. There is much interest in the development of vertical, free-standing nanowires, as their versatility shows great promise. However, most current designs use bottom-up fabrication techniques that result in vertical nanowires being randomly distributed on semi-conducting substrates, limiting their usability.
Now, Ryutaro Kodaira, Shinjiro Hara and co-workers at Hokkaido University have demonstrated a novel method of making high quality vertical nanowires with full control over their size, density and distribution over a semi-conducting substrate.
The team created an indium arsenide (InAs) nanowire template from which to grow the desired heterojunction nanowires, which were composed of ferromagnetic manganese arsenide (MnAs) and semiconducting InAs. In the fabrication process, they first produced the InAs nanowire template by precisely patterning circular openings in silicon dioxide thin films, which were deposited by plasma sputtering onto wafers. Next the researchers grew single InAs nanowires in each circular hole. The MnAs nanowires formed either inside (in the middle) or on top of the InAs nanowires, by a process known as 'endotaxy' – orientated crystal growth inside another crystal.
(Score: 2) by FatPhil on Wednesday August 31 2016, @08:16AM
I'm sorry, but blending them into the composites making up the frame of a bike that wins the TdF when ridden by a drug cheat does not count as solving any real world problem, quite the opposite (as it draws attention from the real reason he was quicker).
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