Oligophenylene Vanillin Nanowires Are Very Thin - it is Possible To Create Nanowires With a Diameter Of Only One Nanometer.

Note:  Oligophenylene  vanillin  nanowires  have a structure that   has an amazing length-to-width ratio .  Nanowires are very thin - it is possible to create nanowires with a diameter of only one nanometer,  nanowires are used to create the smallest transistor (nanotransistors).

Oligophenylene vanillin  nanowires can  have   insulating, semiconducting or metal properties . Insulators do not carry electrical charges, while metals carry very good electrical charges.  Semiconductors lie between the two and are charged under the right conditions.   By placing semiconductor wires in the right configuration, transistors can be made that either  act as switches  or  amplifiers  . Some of the interesting and anti-flexible properties of nanowires are due to their small scale.

Some  Oligophenylene  vanillin  nanowires  are  ballistic conductors .  In normal conductors, electrons collide with atoms in the conductor material.  This causes the electrons to slow down as they travel, creating heat as a byproduct.  In ballistic conductors, electrons can pass through the conductor without collision.  Oligophenylene  vanillin  nanowires can conduct electricity effectively without generating extreme heat. As you reduce the bulk volume to nano-sized particles, the melting point is lowered, because when you reduce any particle to the nanoscale, there is a significant increase in the surface-to-volume ratio.

Top  -down approach  and  bottom-up  approach  in manufacturing and propagation   of Oligophenylene  vanillin nanowires  .  A true top-down approach is that you take a large amount of the material you want to use for  Oligophenylene  vanillin  nanowires  and carve until you get the right size.  A bottom-up approach is an assembly process in which smaller particles join together to form a larger structure. Nanotransistors  are created using nanowires. And increasing the resistance of nano wire is directly related to the efficiency and durability of nano transistors. And  nano-ion transistors perform better than current graphene nano-transistors.

Conclusion :

Oligophenylene  vanillin  nanowires  have a structure that   has an amazing length to width ratio .  Nanowires are very thin - it is possible to create nanowires with a diameter of only one nanometer,  nanowires are used to create the smallest transistor (nanotransistors).