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Nanoelectromechanical systems or NEMS are similar to Microelectromechanical systems (MEMS) but smaller. They hold promise to improve abilities to measure small displacements and forces at a molecular scale, and are related to nanotechnology and nanomechanics.
There are two approaches most researchers accept as standard paths to NEMS. The top-down approach can be summarized as “a set of tools designed to build a smaller set of tools”. For example, a millimeter sized factory that builds micrometer sized factories which in turn can build nanometer sized devices. The other approach is the bottom-up approach, and can be thought of as putting together single atoms or molecules until a desired level of complexity and functionality has been achieved in a device. Such an approach may utilize molecular self-assembly or mimic molecular biology systems.
In 2000, the first Very Large Scale Integration (VLSI) NEMS device was demonstrated by researchers from IBM[1]. Its premise was an array of AFM tips which can heat/sense a deformable substrate in order to function as a memory device. In 2007, the International Technical Roadmap for Semiconductors (ITRS)[2] contains NEMS Memory as a new entry for the Emerging Research Devices section; an indication that the semiconductor industry is actively considering the technology for implementation in the near (15 years) future.
A combination of these approaches may also be used, in which nanoscale molecules are integrated into a top-down framework. One such example is the carbon nanotube nanomotor.
References
External links
- Latest News and Research Articles in Nanotechnology
- Nanoelectromechanical systems face the future
- The MEMS and Nanotechnology Clearinghouse / The world's most popular portal for Nanotechnology information, jobs, and events
- The MEMS and Nanotechnology Exchange / A repository of Nanotechnology fabrication information
- NEMS Research at Penn State University
