Nano-fabrication of multifunctional nano-structures with quantum interferometers using mechanical bottom-up nano-manipulation
Paper ID : 1232-ICNS (R1)
Victor Victorovich Koledov *
Kotel’nikov Institute of Radioengineering and Electronics Russian Academy of Sciences.
Nowadays a lot of different types of nano-objects were synthesized and studied. Many types of nano-objects have very interesting physical and functional properties. These properties give possibility to produce outstanding nano-devices from single nano-objects. In the meantime nano-objects like nanowires or nanotubes are synthesized as large arrays. That is why selection, pick up and place, transfer and other actions are needed for the fabrication of nano-devices and formation of 2-D and 3-D nano structures from single nano-objects. All those nano-handling actions should be done using nano-tools comparable in size with the manipulated nano-objects. The creation of ordered nano-structures and nano-devices from single nano-objects is very important for many research areas and application in nano-science and nanotechnology. Among these areas are nano-electronic, and nano-sensorics, metamaterials and metasurfaces, MEMS/NEMS and many others. The report is devoted to the description of different types of nano-structures from carbon nano-tubes (CNT) and nano-wires represent suspended nano-rings for the desigh of quantum interferometer. The experimental procedure for the producing of those nano-structures was provided by nano-handling using nano-gripper produced Ti2NiCu shape memory alloys (SMA). This type of nano-assembling is in frame of mechanical bottom up nanotechnology paradigm.
“nano-gripper”, “mechnical bottom up nano-assembling”, “quantum interferometer”, “suspended nano-structures”, “single nano-objects”
Status : Abstract Accepted (Oral Presentation)