(Synthetic Nanoreactors) Have Greater Diversity and Simple Structure

Synthetic nanoreactors have greater diversity and a simple structure, and various molecules and types of macromolecules  are used to prepare synthetic nanoreactors. An example of these nanoreactors, which have selectable and  temperature-sensitive branches, has been used as a homogeneous catalyst in the oxidation of thiols. Synthetic reactors have greater diversity and a simple structure, and various molecules and types of macromolecules  are used to prepare synthetic nanoreactors.

Nanostructured materials that are electrically conductive allow the production of inexpensive and portable biosensors and biodetectors  . These materials can be considered as warning signs and  therefore can be used in hazardous environments. The detection of  single molecules by photon detectors is another example of the application of nano-microelectronics in the life sciences.

The atoms on the surface of  nanoreactors  are not compensated in terms of energy. In general, the energy growth of a nanoparticle can be expressed as the total energy of the atoms on the surface of the particle. At the surface of nanostructured particles, the freedom of movement of the surface atoms is limited, and only vibrational movements and electron motion are possible. These two types of motion are interdependent because the displacement of the electron clouds of atoms necessarily changes the vibrational frequencies of the bonds of atoms. On the other hand, the change in the location of the valence electrons in the bonds changes the polarity of the bond and the objects called the molecular superstructure, in which case the electron transfer to a higher energy level becomes possible.

Conclusion :

Natural nanoreactors  Cells and cellular organelles, which are considered the most ideal nanoreactors, have lipid membranes.  These  nanoreactors are selectable