"Nano-Electronic Applications in the Nanomedicine Fields"

Abstract

of California, Riverside showed that carbon nanotubes constitute a scaffold suitable for osteoblast proliferation and bone formation as well. With the help of Equus of Franklin, Massachusetts, and Unidem of Silicon Valley, thin films of transparent and electrically conductive carbon nanotubes can be developed to replace indium tin oxide. These thin carbon nanotube films are stronger and mechanically more durable than indium tin oxide films, making them ideal for use in high-resolution, rigid touch screens and flexible displays. Water-based and printable carbon nanotube inks are also preferred in the production of such thin films to replace indium tin oxide. This makes thin nanotube films promising for use in the manufacture ABSTRACT Nano-electronics is an important application used in the applications of nano-technological devices, especially transistors. Although the term nanotechnology refers to the use of technology less than 100 nanometers in size, nano-electronics often refers to extremely small transistors, and thus the interactions within the atom and quantum mechanical properties are in need of more in-depth and intensive study. As a result, current transistors do not fall within the scope of this classification, even though these devices were manufactured using 45 nm and 32 nm technology. Nano-electronics is sometimes a controversial technology because the current candidates differ significantly from conventional transistors. Some of the new candidates include Molecular Generator/ Semiconductor Electronics, One-Dimensional Molecular Nanotubes/Nanowires as well as Advanced Molecular Electronics. Although all of these things carry a glimmer of hope for the future, they are still in the process of development and will not be used in the manufacture of anything soon.