The lithographically-produced CMOS transistor has been the key technology that has enabled the information revolution. However, in the near future the limitations, both technical and economic, introduced by lithographic fabrication may inhibit further decreases in feature size. Chemically assembled electronic nanotechnology (CAEN) is a promising alternative to CMOS for constructing circuits with device sizes in the tens of nanometers, far smaller than is thought possible using lithography. In this paper we examine and contrast the constraints imposed by lithographic versus CAEN fabrication; the key limitation is that three-terminal devices, such as transistors, will be impractical at the nanoscale. We demonstrate that these constraints can ...
The predicted 22-nm barrier which is seemingly going to put a final stop to Moore’s law is essential...
Nanotechnology has been shown to have the potential to replace the existing CMOS technology in the r...
As the dominating CMOS technology is fast approaching a “brick wall, ” new opportunities arise for c...
The lithographically-produced CMOS transistor has been the key technology that has enabled the infor...
In this paper we introduce a reconfigurable architecture based on chemically assembled electronic na...
The continuation of the remarkable exponential increases in processing power over the recent past fa...
Miniaturization has been an essential ingredient in the outstanding progress of information technolo...
<p>Molecular electronics is an area of micro/nanoelectronics with a number of farreaching goals and ...
<p>Nanoscale devices offer the technological advances to enable a new era in computing. Device size...
New electronics technologies are emerging which may carry us beyond the limits of lithographic proce...
Chemically assembled electronic nanotechnology (CAEN) is a promising alternative to CMOS-based compu...
Electronic devices containing molecules as either passive or active (switching) components present t...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
considering how nano-devices and nano-circuits can be assembled, modeled and designed with the requi...
Molecular-based devices are widely considered as significant candidates to play a role in the next g...
The predicted 22-nm barrier which is seemingly going to put a final stop to Moore’s law is essential...
Nanotechnology has been shown to have the potential to replace the existing CMOS technology in the r...
As the dominating CMOS technology is fast approaching a “brick wall, ” new opportunities arise for c...
The lithographically-produced CMOS transistor has been the key technology that has enabled the infor...
In this paper we introduce a reconfigurable architecture based on chemically assembled electronic na...
The continuation of the remarkable exponential increases in processing power over the recent past fa...
Miniaturization has been an essential ingredient in the outstanding progress of information technolo...
<p>Molecular electronics is an area of micro/nanoelectronics with a number of farreaching goals and ...
<p>Nanoscale devices offer the technological advances to enable a new era in computing. Device size...
New electronics technologies are emerging which may carry us beyond the limits of lithographic proce...
Chemically assembled electronic nanotechnology (CAEN) is a promising alternative to CMOS-based compu...
Electronic devices containing molecules as either passive or active (switching) components present t...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
considering how nano-devices and nano-circuits can be assembled, modeled and designed with the requi...
Molecular-based devices are widely considered as significant candidates to play a role in the next g...
The predicted 22-nm barrier which is seemingly going to put a final stop to Moore’s law is essential...
Nanotechnology has been shown to have the potential to replace the existing CMOS technology in the r...
As the dominating CMOS technology is fast approaching a “brick wall, ” new opportunities arise for c...