High‐Speed Ionic Synaptic Memory Based on 2D Titanium Carbide MXene

Melianas, Armantas; Kang, Min‐A; VahidMohammadi, Armin; Quill, Tyler J.; Tian, Weiqian; Gogotsi, Yury; Salleo, Alberto; Hamedi, Mahiar

doi:10.1002/adfm.202109970

Cited by 39 publications

(42 citation statements)

References 59 publications

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“…Since their discovery in 2011, two-dimensional (2D) transition metal carbides and nitrides, MXenes, have shown promising electrical, mechanical, optical, and electrochemical properties leading to their widespread use in applications such as energy storage, electromagnetic interference shielding, , sensing, , electronics, , and biomedicine, − to name a few. MXenes have a general formula of M n +1 X n T x , where M represents early transition metals (Ti, V, Nb, etc.…”

Section: Introductionmentioning

confidence: 99%

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

et al. 2021

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Vanadium carbide MXenes, specifically V 2 CT x , have shown promise for applications ranging from energy storage and sensing to electronics and optics. In the past decade, however, research involving V 2 CT x has been mostly limited to its multilayered form due to instability of delaminated V 2 CT x in its colloidal state. In this paper, we report on mild synthesis conditions which result in high-quality V 2 CT x and an ion exchange process coupled with flocculation that increases the shelf life of this MXene in aqueous suspension by about 3 orders of magnitude, from a few hours to several months. We discuss the etching and delamination mechanisms and provide a guideline for researchers working with this MXene composition. We explain the effect of etchant formulation, delamination chemicals, and postprocessing on the quality, chemical stability, and optoelectronic properties of the synthesized V 2 CT x . We also demonstrate that during ionexchange and flocculation tetrabutylammonium or tetramethylammonium ions are replaced with lithium cations. The produced precipitates from delaminated V 2 CT x can not only be stored in suspension for a few months without degradation but can also be redispersed and processed into films. Those MXene films show distinct improvements in the optical and electronic properties. Their electrical conductivities in the dry state can exceed 1000 S cm −1 , a value not previously achievable for V 2 CT x . The major improvements in shelf life and properties of V 2 CT x demonstrated in this work are expected to allow fundamental studies of properties of this MXene and greatly expand its range of potential applications. The proposed approach may be applicable to other MXenes that require the use of quaternary amines for delamination.

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Section: Introductionmentioning

confidence: 99%

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

et al. 2021

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“…In addition, memristors based on 2D materials can truly achieve nanoscale dimension and even a single atomic layer, contributing to low power consumption, gate tunability, and mechanical flexibility. , Furthermore, such memristors based on 2D materials are applicable to the artificial synapses for brain-inspired neuromorphic computing. , Ti 3 C 2 , as a well-studied 2D material in the MXene family, has been widely used in supercapacitors, batteries, catalysts, , and biosensors . In recent years, studies of Ti 3 C 2 in memristors and memristor-based artificial synapses have gradually emerged owing to its outstanding electric properties and diverse structures, , but the research is still limited compared to other classes of nanomaterials. Analog RS behaviors and basic synaptic functions were reported in Cu/Ti 3 C 2 /Cu memristors .…”

Section: Introductionmentioning

confidence: 99%

“…13,14 Ti 3 C 2 , as a wellstudied 2D material in the MXene family, has been widely used in supercapacitors, 15 batteries, 16 catalysts, 17,18 and biosensors. 19 In recent years, studies of Ti outstanding electric properties and diverse structures, 20,21 but the research is still limited compared to other classes of nanomaterials. Analog RS behaviors and basic synaptic functions were reported in Cu/Ti 3 C 2 /Cu memristors.…”

Section: ■ Introductionmentioning

confidence: 99%

Tunable Resistive Switching in 2D MXene Ti₃C₂ Nanosheets for Non-Volatile Memory and Neuromorphic Computing

Zhang

Chen

Cheng

et al. 2022

ACS Appl. Mater. Interfaces

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An artificial synapse is essential for neuromorphic computing which has been expected to overcome the bottleneck of the traditional von-Neumann system. Memristors can work as an artificial synapse owing to their tunable non-volatile resistance states which offer the capabilities of information storage, processing, and computing. In this work, memristors based on two-dimensional (2D) MXene Ti3C2 nanosheets sandwiched by Pt electrodes are investigated in terms of resistive switching (RS) characteristics, synaptic functions, and neuromorphic computing. Digital and analog RS behaviors are found to coexist depending on the magnitude of operation voltage. Digital RS behaviors with two resistance states possessing a large switching ratio exceeding 103 can be achieved under a high operation voltage. Analog RS behaviors with a series of resistance states exhibiting a gradual change can be observed at a relatively low operation voltage. Furthermore, artificial synapses can be implemented based on the memristors with the basic synaptic functions, such as long-term plasticity of long-term potentiation and depression and short-term plasticity of the paired-pulse facilitation and depression. Moreover, the “learning–forgetting” experience is successfully emulated based on the artificial synapses. Also, more importantly, the artificial synapses can construct an artificial neural network to implement image recognition. The coexistence of digital and analog RS behaviors in the 2D Ti3C2 nanosheets suggests the potential applications in non-volatile memory and neuromorphic computing, which is expected to facilitate simplifying the manufacturing complexity for complex neutral systems where analog and digital switching is essential for information storage and processing.

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“…Graphene, − transitional-metal dichalcogenides (TMDs), − transition-metal carbides and nitrides (MXenes), hexagonal boron nitride (hBN) and semiconductor polymers , are two-dimensional (2D) storage materials discovered in recent years that can be used to fabricate not only rigid RRAM but also flexible RRAM. RRAM based on a 2D material storage layer − , shows better performance potential than that based on oxide materials. ,,,− The performance index of RRAM based on 2D materials developed in just over 10 years (solid blue dots − , in Figure S1) has caught up with that based on oxide materials (hollow violet dots ,,,− in Figure S1), which have been investigated for 60 years.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, TMO storage materials have the problem of insufficient ductility. Graphene, 24−35 transitional-metal dichalcogenides (TMDs), 36−40 transition-metal carbides and nitrides (MXenes), 41 hexagonal boron nitride (hBN) 42 and semiconductor polymers 43,44 are two-dimensional (2D) storage materials discovered in recent years that can be used to fabricate not only rigid RRAM but also flexible RRAM. RRAM based on a 2D material storage layer [24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39]43 shows better performance potential than that based on oxide materials.…”

Section: Introductionmentioning

confidence: 99%

Ultralow-Power RRAM with a High Switching Ratio Based on the Large van der Waals Interstice Radius of TMDs

et al. 2022

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Low power and high switching ratio are the development direction of the next generation of resistive random access memory (RRAM). Previous techniques could not increase the switching ratio while reducing the SET power.Here, we report a method to fabricate low-power and highswitching-ratio RRAM by adjusting the interstice radius (r g ) between the van der Waals (vdW) layers of transitional-metal dichalcogenides (TMDs), which simultaneously increases the switching ratio and reduces the SET power. The SET voltage, SET power, switching ratio and endurance of the device are strongly correlated with r g . When the ratio of r g to the radius of the metal ions that form the conductive filaments (r g /r Ag + ) is near 1, the SET voltage and SET power vertically decrease while the switching ratio vertically rises with increasing r g /r Ag + . For the fabricated Ag/[SnS 2 /poly(methyl methacrylate)]/Cu RRAM with an r g /r Ag + of 1.04, the SET voltage, SET power and switching ratio are 0.14 V, 10 −10 W and 10 6 , respectively. After 10 4 switching cycles and a 10 4 s retention time, the switching ratio of the device can still be stable above 10 6 . Bending has no influence on the performance of the device when the bending radius is not <2 mm.

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High‐Speed Ionic Synaptic Memory Based on 2D Titanium Carbide MXene

Cited by 39 publications

References 59 publications

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

Tunable Resistive Switching in 2D MXene Ti₃C₂ Nanosheets for Non-Volatile Memory and Neuromorphic Computing

Ultralow-Power RRAM with a High Switching Ratio Based on the Large van der Waals Interstice Radius of TMDs

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High‐Speed Ionic Synaptic Memory Based on 2D Titanium Carbide MXene

Cited by 39 publications

References 59 publications

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V2CTx MXene

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V2CTx MXene

Tunable Resistive Switching in 2D MXene Ti3C2 Nanosheets for Non-Volatile Memory and Neuromorphic Computing

Ultralow-Power RRAM with a High Switching Ratio Based on the Large van der Waals Interstice Radius of TMDs

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Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

Guidelines for Synthesis and Processing of Chemically Stable Two-Dimensional V₂CT_x MXene

Tunable Resistive Switching in 2D MXene Ti₃C₂ Nanosheets for Non-Volatile Memory and Neuromorphic Computing