Nanotechnology and Nanodevices

Nanotechnology refers to the manipulation and control of matter at the nanoscale, which involves materials and structures with dimensions typically ranging from 1 to 100 nanometers. At this level, distinct physical, chemical, and biological properties emerge, enabling the creation of novel materials, devices, and systems with enhanced performance and functionality. Nanodevices, serving as the fundamental components of nanosystems, are designed and manufactured at the nanoscale to fulfill specific functions. These devices utilize the principles of nanotechnology to achieve heightened efficiency, sensitivity, and precision compared to their larger counterparts. Nanotechnology and nanodevices are used in various fields, including electronics, medicine, energy, and environmental science, demonstrating a wide range of applications. Continued research and development in these areas hold tremendous potential for future advancements and innovations. Nanotechnology and Nanodevices topic explores key concepts in the field and examines the potential impacts of nanotechnology and nanodevices in diverse areas. The chapters will discuss nanoscale materials, their properties, and the techniques employed for fabrication. Moreover, they will focus on the distinct characteristics and behaviors exhibited by materials at the nanoscale, highlighting their implications for designing and optimizing devices to achieve desired functionality.