This work presents the electro-thermal analysis of crosstalk effects in pristine (undoped) and
intercalation doped multilayer graphene nanoribbon interconnects (MLGNRs). A …

In this work, a new interconnect structure is proposed for the first time where copper-carbon
nanotube composite interconnect is encapsulated by graphene barrier layers named here …

Graphene nanoribbon (GNR) is emerging as a superior material for nanometer-scale
interconnects, offering superior performance compared with traditional copper materials. To …

Copper Carbon (Cu-Carbon) hybrid interconnect is a new and an extremely promising
candidate for future VLSI circuit applications, so it needs to be analyzed for not only …

In this paper, the performance of intercalation doped multilayer graphene nanoribbons
(MLGNR) with reduced vertical thickness is investigated, and the impact of crosstalk on …

In this work, aspect ratio of various intercalation doped MLGNR interconnects are optimized
using a numerical approach to achieve improved performance and reliability. A numerical …

In order to solve the electrical performance limitations of horizontal multilayer graphene
nanoribbon (H-MLGNR) based interconnect, a new geometric structure of vertical multilayer …

This paper investigated the temperature‐dependent performance of coupled top contact
multilayer graphene nanoribbon interconnects (TC-MLGNRs) with different intercalation …

The ultra-low-k dielectric material replacing the conventional SiO2 dielectric medium in
coupled multilayer graphene nanoribbon (MLGNR) interconnects is presented. An …

In order to analyse crosstalk delay and stability in single wall carbon nanotube bundle
(SWCNT) interconnects, the time and frequency domain response are investigated in this …