The main objectives of the development of nano-electromechanical systems (MEMS) - the definition of four main and general objectives

Department of systems (nano and microelectric and mechanical  MEMS )  

The main objectives of the development of nano-electromechanical systems (MEMS) - the definition of four main and general objectives

Researcher  and author: Dr.   (   Afshin Rashid)

Note: The objectives of the development of nano-electromechanical systems (MEMS) are devices made entirely of (crystalline) metal oxides, a class of compounds that show a wide range of physical properties, made with the vision of introducing new classes of transducers with Unprecedented detection mechanisms and integration of more capabilities in nanomechanical systems. This new technology approach will add multifunctional oxides to the current MEMS field portfolio. 

Our science-to-technology advancement is the realization of a proof-of-concept MEMS device based on supersensitive oxides for detecting biomagnetic fields. The MEMS/NEMS field array   will implement ultra-sensitive detectors capable of measuring very weak magnetic fields, similar to those generated by human brain activity,   targeting dozens of MEMS field arrays . MEMS devices    enable precise control of these nanoscale interactions and provide an ideal platform for interacting with the nanoworld. It involves the integration of active submicron materials and elements that combine mechanical, optical, and electrical signals to produce functional nanostructures.

The use of nano technology in the applications of nano sensors  has facilitated bio control and precise regulation of nano environmental functions  . Nano structures are widely used  in the field of nano biosensors  due to their small size in nanometers and multiple functions  in specific places . Develop different types of  multifunctional MEMS / NEMS devices with micro and nanoelectronic features  for biomedical applications (BioMEMS / BioNEMS ) through different manufacturing techniques and  biocompatible nanomaterials. However, the integration of  devices with the physiological environment of nano-biosensors  is considered a fundamental problem. Most of them lose their function  due to the limitations  of nano particles in nano bio sensors and causeUndesirable effects. In laboratory conditions and  in the applications of bio-environmental nano-sensors, the performance of bio-MEMS implants  such as bio  -sensors, smart stents  , etc.  And the architecture of nano biosensors is essential. The creative use of nano-microelectronic systems and  ( MEMS nano-electromechanical systems  )  in the applications of nano-bioelectronic sensors has provided  favorable conditions for (nano-MEMS) to accurately and correctly detect environmental factors   .

Conclusion :

The objectives of the development of nano-electromechanical systems (MEMS) are devices made entirely of (crystalline) metal oxides, a class of compounds that show a wide range of physical properties, made with the vision of introducing new classes of transducers with mechanisms Unprecedented detection and integration of more capabilities in nanomechanical systems. This new technology approach will add multifunctional oxides to the current MEMS field portfolio. 

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics