Review of: "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"

Qeios 25 (2024)
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Abstract

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 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 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.

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original Rashid, Afshin (2024) "Review of:" bipolar transistors (pMOS) have a state voltage connected (Von) around ۲ to ۳ volts". Qeios 15():
original Rashid, Afshin (2024) "Review of: In General, an Electrical Nano-Biosensor Consists of an Immobilized Static Biological System (Based on their own Built-in Immobilized Static Biological System)". Qeios 14():
original Rashid, Afshin (2024) "Review of: "Nano Fullerenes with The Ability to Store Electrostatic Energy That can be Used as Nano Supercapacitors With Very High Capacity"". Qeios 3():
original Rashid, Afshin (2024) "Review of: "_ Lindemann's change structure section in electrical nanostructures Lindemann change / (change structure) in multilayer nanostructures"". Qeios 11():
original Rashid, Afshin (2024) "Review of: "FinFET nanotransistor downscaling causes more short channel effects, less gate control, exponential increase in leakage currents, drastic process changes and unmanageable power densities"". Qeios 9(7680_765667):
original Rashid, Afshin (2024) "Review of: "Nano supercapacitors (supercapacitors or electrochemical nanocapacitors)"". Qeios 23():
original Rashid, Afshin (2024) "Review of: "Investigating the performance of ( C۶۰ and C۷۰ endohistal bucky tubes and nano-fullers ) and diamond in the manufacture of nano-electronic devices"". Qeios 43(764653_11):
original Rashid, Afshin (2024) "Review of: "A combination of interference nanolithography and nanoelectronics lithography enables the fabrication and reproduction of high-resolution structures in large areas"". Qeios 19(6535638_7765):
original Rashid, Afshin (2024) "Review of: "Normally, the length of nanowires is more than 1000 times greater than their diameter. This huge difference in ratio (length to diameter) compared to nanowires is often referred to as ۱D materials"". Qeios 11():
reprint Rashid, Afshin (2024) "Review of: "distribution of nanotubes by NIR-vis-UV absorption spectroscopyresulting in preparation like valence electrons (dopingP)"". Qeios 9():

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Afshin Rashid
Islamic Azad University Science and Reserch Branch Tehran

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