Nano-assemblers are and nano-  arrays (spin-qubits) (spin-qubits) of (Doctor of nano-micro-electronics)

Researcher  and author: Dr.   (   Afshin Rashid)



Note: Applications of  nanoassemblers   in data storage nano-devices or nano-memories   include single-electron nano-transistors and  spin-qubits  for array quantum computing.

With the advent of nano-microelectronics technology, the accuracy of hardware devices has  not improved as the dimensions  of spin-qubits  become smaller. In intelligent nanostructures, the concept of Nano-assemblies is   summarized in all the information and code needed to generate a similar inventory . . Nanoassemblers are made of nanoparticles and the first effect of reducing the particle size is to increase the surface area. Increasing the surface to volume ratio of nanoparticles causes the atoms at the surface to have a much greater effect on the physical properties of the particles than the atoms within the particle volume. Have. This property greatly increases the reactivity of nanoparticles.The structure of nano-assemblers is one of the properties of nanoparticles in terms of surface to volume ratio of these materials. Using this property, powerful catalysts in nanometer dimensions can be produced. These nanocatalysts will greatly increase the efficiency of chemical reactions and will also significantly prevent the production of waste materials in the reactions. Nanoparticles in the production of other materials can increase their strength or reduce their weight. Increase their chemical and thermal resistance and change their reaction to light and other radiation. With the use of nanoparticles, the strength to weight ratio of composite materials will increase dramatically.




For the formation of   nano-assembly of  the  nano-  arrays (spin-qubits) (spin-qubits) to   the nanoscience electronic raw material change is required (Tranzsytvr and diodes) and any material that exists around us an energy structure It is unique to electrons and the energy structure of different materials is different. According to nanoelectronics in an atom, electrons can only occupy certain atomic orbitals  with discrete energy levels. If several atoms are put together to form a molecule, their atomic orbitals split due to the effect of the  nuclei of each atom on the electrons of all atoms and the Pauli exclusion principle. When a very large number of The atoms come together to form a crystal, the number of orbitals increases dramatically, and as a result their energy levels converge. So that the energy levels appear to be continuous. In this case, instead of energy balance, bands or electron energy bands are allowed  There are forbidden gaps between these bands in which similar electrons with discrete levels in the atom cannot be placed. In macroscopic and ordinary materials  consists of energy bands. In different atoms, the distance between the levels is different from each other, and in normal cases  , the width of the energy bands and the width of the restricted area (energy gap) are different from each other.



Conclusion : 

Applications of  nanoassemblers   in data storage nano-devices or nano-memories   include single-electron  nanotransistors and spin-qubits  for array quantum computing.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics