A review of graphene nanoribbon field-effect transistor structures
S Lone, A Bhardwaj, AK Pandit, S Gupta… - Journal of Electronic …, 2021 - Springer
The ascending trend of Moore's law has stretched to the horizon, where the prospects of
carbon-based materials show the potential of replacing the silicon-based complementary …
carbon-based materials show the potential of replacing the silicon-based complementary …
GNRFET-and CNTFET-based designs of highly efficient 22 T unbalanced single-trit ternary multiplier cell
E Abbasian, A Aminzadeh… - Arabian Journal for …, 2023 - Springer
The internet-of-things and mobile devices have emerged as significant drivers in enhancing
the living standards. As such devices rely on batteries, energy and area efficiency are top …
the living standards. As such devices rely on batteries, energy and area efficiency are top …
Review on graphene nanoribbon devices for logic applications
JM Marmolejo-Tejada, J Velasco-Medina - Microelectronics Journal, 2016 - Elsevier
Graphene nanoribbon (GNR) devices are being extensively investigated as possible
candidates for replacing silicon-channel devices in the next-generation integrated circuits …
candidates for replacing silicon-channel devices in the next-generation integrated circuits …
An efficient GNRFET-based circuit design of ternary half-adder
E Abbasian, M Orouji, ST Anvari - AEU-International Journal of Electronics …, 2023 - Elsevier
Attaining low energy consumption in digital circuits design is a main task for designers
because emerging applications are based on batteries and face limited-energy. Designing …
because emerging applications are based on batteries and face limited-energy. Designing …
An ultra‐low power and energy‐efficient ternary Half‐Adder based on unary operators and two ternary 3: 1 multiplexers in 32‐nm GNRFET technology
E Abbasian, M Orouji… - … Journal of Circuit …, 2023 - Wiley Online Library
Summary Internet‐of‐Things (IoTs)‐based embedded systems require energy‐efficient
designs for long‐term operation. To achieve energy‐efficient designs, multiple‐valued logic …
designs for long‐term operation. To achieve energy‐efficient designs, multiple‐valued logic …
[HTML][HTML] Design Implementations of Ternary Logic Systems: A Critical Review
In the electronics industry, binary devices have played a critical role since the development
of solid-state transistors. While binary technology associates devices' inherent ability to be …
of solid-state transistors. While binary technology associates devices' inherent ability to be …
A stable low leakage power SRAM with built-in read/write-assist scheme using GNRFETs for IoT applications
E Abbasian, T Mirzaei… - ECS Journal of Solid State …, 2022 - iopscience.iop.org
Abstract Design of circuits using graphene nanoribbon field-effect transistors (GNRFETs), as
promising next-generation devices, can improve total performance of a chip due to offering …
promising next-generation devices, can improve total performance of a chip due to offering …
A variation-aware design for storage cells using Schottky-barrier-type GNRFETs
E Abbasian, M Gholipour - Journal of Computational Electronics, 2020 - Springer
Graphene nanoribbons (GNRs) are a good replacement material for silicon to overcome
short-channel effects in nanoscale devices. However, with continuous technology scaling …
short-channel effects in nanoscale devices. However, with continuous technology scaling …
An unbalanced ternary multiplier cell based on graphene nanoribbon field-effect transistors for PVT-tolerant low-energy portable applications
H Wang, Z Li, MA El-Meligy, M Sharaf… - … -International Journal of …, 2023 - Elsevier
The potential benefits of using multiple-valued logic (MVL), especially ternary logic, which
includes less interconnections, quicker response times, and smaller chip sizes, has gained …
includes less interconnections, quicker response times, and smaller chip sizes, has gained …
Characterisation of graphene nano-ribbon field effect transistor and design of high performance PPN 12T GNRFET Full adder
Owing to the balanced electrical properties of graphene nanoribbon field effect transistors
(GNRFETs), they are suitable next-generation devices for designing high performance …
(GNRFETs), they are suitable next-generation devices for designing high performance …