| Gallium arsenide (48) |  |
| Indium arsenide (9) | |
| Titanium dioxide (43) | |
| Gallium arsenide (48) | |
| Indium arsenide (9) | |
| Titanium dioxide (43) | |
#Self-organized indium arsenide quantum dots for solar cells Kouichi Yamaguchi is recognized internationally for his pioneering research on the fabrication and applications of'semiconducting quantum dots'(QDS.
they integrated compound semiconductor crystals made of indium arsenide (Inas) into silicon nanowires, which are suited ideally for constructing increasingly compact chips.
"while the implanted atoms form the indium arsenide crystals.""Dr. Wolfgang Skorupa, the head of the research group adds:"
The device was assembled by taking a crystal of indium arsenide and placing 12 indium atoms laid out in a hexagonal shape on top of it, with a phthalocyanine molecule in the middle.
positioning them with the STM tip on the surface of an indium arsenide (Inas) crystal. Kiyoshi Kanisawa, a physicist at NTT-BRL, used the growth technique of molecular beam epitaxy to prepare this surface.
Scanning tunneling microscope image of a phthalocyanine molecule centered within a hexagon assembled from twelve indium atoms on an indium arsenide surface.
and positively charged metal atoms, positioning them with the STM tip on the surface of an indium arsenide (Inas) crystal.
The transistor is made of a single molecule of phthalocyanine surrounded by ring of 12 positively charged indium atoms placed on an indium arsenide crystal,
They used extremely thin nanowires that were made of indium arsenide to fabricate the quantum dots. The placed the qubits 6 mm apart in a cavity that was made from niobium at a temperature near absolute zero(-459 degrees Fahrenheit.
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