By Sergey Edward Lyshevski
NANOTECHNOLOGY AND MICROTECHNOLOGY (NANO- AND MICRO- technological know-how, ENGINEERING AND TECHNOLOGY), AND past advent and evaluation: From Micro- to Nano- and past to Stringo-Scale Introductory Definitions to the topics present advancements and desires for Coherent innovative advancements Societal demanding situations and Implications NANO- AND MICROSCALE platforms, units, AND constructions Sizing beneficial properties: From Micro- to Nano-, and from Nano- to Stringo-Scale MEMS and NEMS Definitions creation to Taxonomy of Nano- and Microsystem Synthesis and layout creation to layout and Optimization of. Read more...
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Extra info for Nano- and Micro-Electromechanical Systems : Fundamentals of Nano- and Microengineering, Second Edition
Analytical and numerical methods must be developed in order to analyze the dynamics, three-dimensional geometry, interaction, bonding, and other features of atoms and molecules. In order to accomplish this analysis, complex electromagnetic, mechanical, and other physical and chemical phenomena, effects, and properties must be studied. Nano- and microsystems will be widely used in medicine and health. Among possible applications are drug synthesis, drug delivery, nanosurgery, nanotherapy, diagnostics, actuation, sensing, diagnosis, prevention, nonrejectable artiﬁcial organs and implants, biocompatible materials and structures, etc.
Let us again recall the molecular assembler, nanofactories, and mechanosynthesis concept envisioned by Dr. 2 The basic idea is that this mechanical molecular assembler will position reactive molecules with atomic precision, carrying them together to the speciﬁc location at the desired time computed by the super-performance computer. These molecules will bond to neighbors, implementing the bottom-up strategy utilizing computers for digitally precise control of machine-phase chemistry and atomic positioning.
This is still not enough, but the ratio is ﬁnally only 57 times smaller than that of the hydrogen atom to the string. 2 MEMS and NEMS Deﬁnitions Micro- and nanotechnology have been identiﬁed as the most promising technologies of this century because of their potential for making affordable enhanced-functionality high-performance micro- and nanoscale systems and devices. We classify micro- and nanotechnology as evolutionary and revolutionary technologies, respectively. ), radiating energy microdevices (antennas, microstructures with windings), microscale driving/sensing circuitry, controlling/processing integrated circuits (ICs), and energy sources.