Nanofabrication,
NanoDisplay and NanoRobotics
Jing Li, Shannon Yao, Christine Wu
NanoRobotics
The technology of
creating machines or
robots at or close to
the microscopic scale
of a nanometer
NanoDisplay...
NanoRobotics
Still being developed, but
primitive molecular
machine has been tested,
for example, a sensor
having a switch...
NanoRobotics
Still highly speculative.
Four different approaches:
1. Biochip
2. Nucleic Acid (Nubots)
3. Positional nanoas...
NanoDisplays
New color filter technology.
Cheaper, more flexible, more compact than traditional LCD screens.
Nanofabrication
Top-Down Approach
Bottom-Up Approach
NanofabricationNanoDisplaysNanoRobotics
Can help with
advances in medical
field, such as
diagnosis, medicine
delivery, and...
Disassembly of material created via Nanofabrication
Harnessing energy for nanorobots
Using air as a raw material for Nanof...
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NanoDisplay_Research

Published on: Mar 3, 2016
Published in: Technology      Business      
Source: www.slideshare.net


Transcripts - NanoDisplay_Research

  • 1. Nanofabrication, NanoDisplay and NanoRobotics Jing Li, Shannon Yao, Christine Wu
  • 2. NanoRobotics The technology of creating machines or robots at or close to the microscopic scale of a nanometer NanoDisplays A display composed of nano-sized cells Nanofabrication Building or sculpting on the nano-scale on the level of individual molecules
  • 3. NanoRobotics Still being developed, but primitive molecular machine has been tested, for example, a sensor having a switch approx. 1.5 nanometers across, and capable of counting specific molecules in a chemical sample. Nanofabrication IBM’s manipulation of Xenon atoms on nickel to form the logo NanoDisplays University of Michigan develops Super High-Def Displays
  • 4. NanoRobotics Still highly speculative. Four different approaches: 1. Biochip 2. Nucleic Acid (Nubots) 3. Positional nanoassembly 4. Bacteria based Offer a possible cheap fabrication method in the future due to self replicating properties of the nanobots.
  • 5. NanoDisplays New color filter technology. Cheaper, more flexible, more compact than traditional LCD screens.
  • 6. Nanofabrication Top-Down Approach Bottom-Up Approach
  • 7. NanofabricationNanoDisplaysNanoRobotics Can help with advances in medical field, such as diagnosis, medicine delivery, and cure. Detection of toxic chemicals and measurement of concentration in environment Detailed control of materials allows for creation of new materials Gives ability to create super-high density microprocessors and memory chips because each data bit could be stored in a single atom Higher Resolution displays. Cost-efficient way of creating displays. More energy efficient, because it uses natural light.
  • 8. Disassembly of material created via Nanofabrication Harnessing energy for nanorobots Using air as a raw material for Nanofabrication Nano-sensor technology Nano-wires What we have left to research…

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