electromechanical systems ( MEMS / NEMS ) are devices in which the physical motion of a micro- or nano-scale structure

Micro and nano-electromechanical systems (  MEMS  /  NEMS  ) are devices in which the physical motion of a micro- or nano-scale structure is controlled by an electronic circuit (PhD in Nano-Microelectronics).

Researcher  and author: Dr.   (   Afshin Rashid)

Note: MEMS  /  NEMS devices   enable precise control of these nanoscale interactions and provide an ideal platform for interaction with the nanoscale world. It involves the integration of sub-micron-active materials and elements that combine mechanical, optical and electrical signals to produce nanostructured structures.

Micro and nano-electromechanical systems (  MEMS  /  NEMS  ) are devices in which the physical motion of a micro or nano-scale structure is controlled by an electronic circuit or vice versa. MEMS  and  NEMS can be used   to build sensitive sensors and stable timing devices. Nano System Nano System is a function at the molecular scale. This includes both current work and more advanced concepts. In its core meaning, nanotechnology refers to the predicted ability to make items from the bottom up, using techniques and tools that are produced to make complete, high-performance products. Nano System Nano System Introduced the idea of ​​nano-scale "assembly" that could make its own copy. Other aspects of the desired complexity with atomic control in  Nano Systems Nano Systems are very widespread and practical. Nanocomputers and nanoassemblers are also a subset of Nano Systems. Nanoparticles are the main components of all nanosystems. To produce nanoparticles with the help of nanotechnology, changes can be made in atoms by controlling the properties. When materials are studied at the nanoscale, the reactions and behavior of atoms are compared to those at the molecular level. They are completely different because in this realm the physical properties of the material change. It is like throwing a ball in one chamber and taking another ball out of that chamber. The difference in the nano realm is such that even the color, melting point, chemical properties, etc. of materials outside this range are quite different.

Objectives The development of nano-electromechanical systems (NEMS) devices made entirely of (crystalline) metal oxides, a class of compounds that demonstrate a wide range of physical properties, built with the prospect of introducing new classes of converters with mechanisms No history of detecting and integrating more capabilities in nanomechanical systems. This new technology approach will add multipurpose oxides to the current MEMS / NEMS field set. The advancement of science to our technology is the realization of the concept of the NEMS device based on super-sensitive oxides for the detection of biomagnetic fields. The MEMS / NEMS field set  will implement hypersensitive  detectors capable of measuring very weak magnetic fields that target magnetic fields generated by human brain activity for tens of times  the MEMS / NEMS field set  . نددهند.

Conclusion :

MEMS  /  NEMS devices enable   precise control of these nanoscale interactions and provide an ideal platform for interaction with the nanoscale world. It involves the integration of sub-micron-active materials and elements that combine mechanical, optical and electrical signals to produce nanostructured structures.

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics