Research in Materials Science is entering a new phase where the structure and properties of materials can be investigated, characterized and controlled at the nanoscale. At the nanoscale new and sometimes unexpected material properties appear, thus bringing new excitement to this field of research. In this discussion, special emphasis will be given to one-dimensional nanotubes and nanowires because they exhibit unusual physical properties due to their reduced dimensionality and improved surface / volume ratio. These unusual properties have raised interest in its potential for applications in new electronic, optical, magnetic and thermoelectric devices.
Nanotechnology is the area of research and development that is truly multidisciplinary. Nanoscale research is unified by the need to share knowledge about tools and techniques as well as information on physics that affects atomic and molecular interactions in this new realm. Introducing nanotechnology in the field of robotics we can achieve a realistic movement that is A dream of the human for more than five years.
Until now, robotic movements are the ones that will move like a machine when introducing these new nanocoches in the field of robotics, the movements can be done much better and these can be done in the following way:
• When introducing these nano cars as a neuron system, we have the required movement and we can also have the movement we require.
• How it is going to be possible is by introducing nano cars as the nervous system rather than stepping motors for movement. The nervous system will simply function as the real neurons in the human to make the movement require. For example, take the robot's hand until the fingers or the wrist movement are limited to the motors used, but by introducing these nano neurons we can have the required movement as a flash.
The following diagrams will clearly demonstrate the difference between the normal robotic hand and the hand that has a nano-system neuron system. The figure a shows how the normal hand will be through this, the movements are so artificial, but by introducing these nanos we can overcome this disadvantage.
If in one way or another the artificial movement is eliminated in the hands using the normal methods we can take the actual facial expressions, we can make the common robot have a smiling or angry face or any other movement that looks much better than ever.