Authors: S.E. Lyshevski
Affilation: Rochester Institute of Technology, United States
Pages: 202 - 205
Keywords: molecular electronics, archirectures, design
This paper reports the results in synthesis and design of novel three-dimensional (3D) nanoscale integrated circuits (nanoICs). These nanoICs can be implemented utilizing multi-terminal molecular devices that exhibit unique electronic characteristics. Aggregated molecules form molecular aggregates such as 3D molecular gates (Mgate). The interconnected Mgate is a core hardware solution for the combinational and memory nanoICs. We propose 3D nanoICs architectures implemented using aggregated 3D neuronal, molecular hypercells (-hypercells) that combine Mgates. Fundamental, applied and numerical results are reported.
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