Recent progresses of NMOS and CMOS logic functions based on two-dimensional semiconductors

Kong, Lingan; Chen, Yang; Liu, Yuan

doi:10.1007/s12274-020-2958-7

Cited by 29 publications

(18 citation statements)

References 130 publications

(99 reference statements)

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“…The corresponding voltage gain is deduced and plotted in the inset image, with peak values of 26 and 91 for V DD of 1 and 4 V, respectively, which is among the highest as compared with the reported resistance‐type inverter circuit based on TMDCs. [ 36 ] In further works, such gain can be improved though constructing CMOS circuit by replacing the resistance with a p‐type FET as load. The easy threshold voltage control in such DGFET also enables us to realize resistance type inverter with full logic swing, which, to the best of our knowledge, has not been reported yet.…”

Section: Resultsmentioning

confidence: 99%

“…The total noise margin of the inverter can thus be deduced to be 3.72 V at V DD = 4 V, greater than 90% of the V DD , indicating high noise tolerance, which is superior as compared with most of the reported 2D materials‐based CMOS devices. [ 36 ] We also plot the power consumption of the inverter as a function of V DD . As shown in Figure 3d, because, with larger V IN , the channel MoS 2 possesses smaller resistance, the circuit shows larger power consumption at larger V IN values.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Sun

Zhu

et al. 2021

Advanced Materials

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Multifunctional reconfigurable devices, with higher information capacity, smaller size, and more functions, are urgently needed and draw most attention in frontiers in information technology. 2D semiconductors, ascribing to ultrathin body and easy electrostatic control, show great potential in developing reconfigurable functional units. This work proposes a novel double‐gate field‐effect transistor architecture with equal top and bottom gate (TG and BG) and realizes flexible optimization of the subthreshold swing (SS) and threshold voltage (VTH). While the TG and BG are used simultaneously, as a single gate to drive the transistor, ultralow average SS value of 65.5 mV dec−1 can be obtained in a large current range over 104, enabling the application in high gain inverter. While one gate is used to initialize the channel doping, full logic swing inverter circuit with high noise margin (over 90%) is demonstrated. Such device prototype is further extended for designing reconfigurable logic applications and can be dynamically switched and well maintained between binary and ternary logics. This study provides important concept and device prototype for future multifunctional logic applications.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Sun

Zhu

et al. 2021

Advanced Materials

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show abstract

“…With the advent of graphene and 2D transition metal dichalcogenides, probably most of the excitement has been about the exotic electronic and optical properties of these materials. [ 2–6 ] Their controlled intercalation with ions is considered a powerful knob for tuning these properties. [ 7 ] Yet more understanding about the behavior of ions within 2D materials is needed.…”

Section: Figurementioning

confidence: 99%

Wettability Engineering for Studying Ion Transport in 2D Layered Materials

Kühne

Zhao

Zschieschang

et al. 2020

Adv Materials Inter

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Layered materials are widely used for their capacity to incorporate and store foreign ionic species. It has become possible to exploit this process at the level of single crystals consisting of individual atomic layers: 2D materials and their van der Waals heterostructures. Due to the small size of available high‐quality specimen, however, it remains challenging to probe ion transport and storage in these systems. To promote future advances in this field, wettability engineering is introduced as a strategy for the on‐chip integration of electrolytes with micrometer‐sized samples of 2D materials. Contact angles are systematically measured for a variety of electrolyte–surface couples to identify a rational device design, and engineer lateral contrasts in surface chemistry to control the rims of drop cast electrolytes with micrometer precision. This allows covering single crystalline flakes of 2D materials only partially, leaving most of the sample surface uncovered and imposing directionality on ion transport. Wettability engineering is used to fabricate few‐layer graphene electrochemical micro two‐compartment cells that display chemical diffusion of lithium on the order of 10−8 cm2 s−1. While the approach is transferrable to other 2D materials and ionic species, it can also benefit device design for the study of nonlocal electrolyte gating effects.

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“…The complementary metal-oxide-semiconductor (CMOS) technology has advanced through the decades to dominate the semiconductor industry with excellent features of low power and cost, dense packaging, and high-speed devices that are continuously scaled down in size [1][2][3]. When it comes to designing RF/analog circuits in the nanometer regime, several challenges have been encountered due to strict process requirements to maintain sharp source/drain region and short channel effects (SCEs) [4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Design and Parametric Variation Assessment of Dopingless Nanotube Field-Effect Transistor (DL-NT-FET) for High Performance

Singh

Chakraborty

Kumar

2021

Silicon

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In this paper, a dopingless nanotube eld-effect transistor (DL-NT-FET) has been proposed and its performance analysis is done using a technology computer-aided design (TCAD) tool, ATLAS provided by Silvaco. The elimination of doping is brought in by the application of the charge-plasma (CP) technique.A comparative examination of transfer characteristics (I D -V GS ), transconductance (g m ), gate capacitances (C gs and C gd ), output characteristics (I D -V DS ), output conductance (g ds ), average subthreshold slope (AVSS), the threshold voltage (V t ), the ratio of on-current to off-current (I ON /I OFF ) and on-current has been made by varying the channel length (Lg), radius (R), gate work function (Φ), and temperature. Results revealed that increasing the channel length improves subthreshold slope with greater I ON /I OFF and less threshold voltage. It has been also noticed that increase in the radius of the nanotube or an increase in temperature results in just the opposite effect of that observed in the case of increasing channel length. The I OFF value increases signi cantly on increasing the temperature while the small degradation in the I ON has been noticed as a result of mobility degradation and velocity saturation. The I ON degrades 15% by increasing the temperature from 200K to 400K. The output conductance g ds also degrades on increasing the temperature. A proliferation of 39% is observed in the C gs at the V GS of 0.45V on increasing the channel length from 20 nm to 35 m whereas no signi cant changes are observed in the C gd for the same increment in the channel length.

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Recent progresses of NMOS and CMOS logic functions based on two-dimensional semiconductors

Cited by 29 publications

References 130 publications

Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Wettability Engineering for Studying Ion Transport in 2D Layered Materials

Design and Parametric Variation Assessment of Dopingless Nanotube Field-Effect Transistor (DL-NT-FET) for High Performance

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Recent progresses of NMOS and CMOS logic functions based on two-dimensional semiconductors

Cited by 29 publications

References 130 publications

Double‐Gate MoS2 Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Double‐Gate MoS2 Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Wettability Engineering for Studying Ion Transport in 2D Layered Materials

Design and Parametric Variation Assessment of Dopingless Nanotube Field-Effect Transistor (DL-NT-FET) for High Performance

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Product

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Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits

Double‐Gate MoS₂ Field‐Effect Transistors with Full‐Range Tunable Threshold Voltage for Multifunctional Logic Circuits