Nanotechnologies offer a vast number of applications due to the unique features of nanostructured materials [1]. In the electronics field, this new technology could open innovative ways to go beyond Moore's law [2], but progress in manufacturing technology still limits the wide dispersion of nanotechnology-based circuits. The bridge between nanoscience and realized devices can be achieved by modeling the multiphysics phenomena at the nanoscale, which will aid in the development of the technology
Evaluating CNT-Based Interconnects : A Numerical Tool to Characterize Hybrid CNT-Copper Interconnects / S., Bistarelli; S., Sun; Mencarelli, Davide; Pierantoni, Luca; S., Bellucci; J., Liu. - In: IEEE MICROWAVE MAGAZINE. - ISSN 1527-3342. - ELETTRONICO. - 18:4(2017), pp. 124-129. [10.1109/MMM.2017.2680038]
Evaluating CNT-Based Interconnects : A Numerical Tool to Characterize Hybrid CNT-Copper Interconnects
MENCARELLI, Davide;PIERANTONI, Luca;
2017-01-01
Abstract
Nanotechnologies offer a vast number of applications due to the unique features of nanostructured materials [1]. In the electronics field, this new technology could open innovative ways to go beyond Moore's law [2], but progress in manufacturing technology still limits the wide dispersion of nanotechnology-based circuits. The bridge between nanoscience and realized devices can be achieved by modeling the multiphysics phenomena at the nanoscale, which will aid in the development of the technologyI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.