Impact of Schottky junctions in the transformation of switching modes in amorphous Y<sub>2</sub>O<sub>3</sub>-based memristive system

Das, Mangal; Kumar, Amitesh; Mandal, Biswajit; Htay, Myo Than; Mukherjee, Shaibal

doi:10.1088/1361-6463/aacf14

Cited by 29 publications

(31 citation statements)

References 37 publications

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“…When a positive voltage polarity (0 to +3 V) is applied on the TE, the device resistance state is switched from the high resistance state (HRS) to the low resistance state (LRS). This process is termed the “SET” process, as shown in Figure b, and the SET voltage ( V SET ) of the device is +1.8 V. The switching mechanism of the Y 2 O 3 -based memristor is described in our previous report …”

Section: Resultsmentioning

confidence: 96%

“…On the other hand, when the negative voltage bias (from 0 to −3 V) is applied on the TE, the device resistance state is switched from LRS to HRS . This process is known as “RESET” process as depicted in Figure c, and the RESET voltage ( V RESET ) of the device is −1.93 V. Furthermore, when the applied negative bias on TE is replaced by the positive bias, the device switches back from HRS to LRS as shown in Figure b.…”

Section: Resultsmentioning

confidence: 99%

“…The device production yield can be further improved by involving the nanofabrication processes, as reported by Chen et al and Zhang et al, while realizing the crossbar array with reduced individual device area and larger device density and precise control over contaminants during the fabrication process as carried out in a standard cleanroom environment. Figure c represents the increase in current with the corresponding rise in the active area of the device . At the third stage of the shadow masking technique, as depicted in Figure g, the device area is scaled down from 0.6 to 0.3 mm 2 , and subsequently the device current is measured.…”

Section: Resultsmentioning

confidence: 99%

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Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Kumar

Das

Htay

et al. 2022

ACS Appl. Electron. Mater.

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Transition metal oxides play a very important role to develop the memristive crossbar array for nonvolatile memory for storage and logic operations. However, the development of a high-density memristive crossbar array for complex applications is restricted due to low device yield and high device-to-device (D2D) and cycle-to-cycle (C2C) variability in device switching voltages. Here, we report the fabrication of a stable, highly scalable, reproducible, Y2O3-based memristive crossbar array of (15 × 12) on silicon by utilizing a dual ion beam sputtering system. The fabricated crossbar array exhibits the intrinsic nonlinear characteristics of the memristive element by displaying a high endurance (∼7 × 105 cycles), high current ratio (>200), good retention (∼1.5 × 105 s), high device yield, low device-to-device (D2D) (0.25), and cycle-to-cycle (C2C) (0.608) variability in the SET/RESET voltages of the memristive device, which can be further suitable for analog computation and logic operations.

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Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Kumar

Das

Htay

et al. 2022

ACS Appl. Electron. Mater.

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“…The active organic material switches from the low conduction state to high conduction state at a particular threshold switching voltage under the applied electric field . The variation in electrical conduction state of organic materials can be considered as electrically ON and OFF phenomena commonly used for conventional binary data storage devices . In recent years, numerous memory devices based on organic materials including biomaterials such as enzymes, natural polymers like silk fibroin synthetic materials like organic conjugated polymers, metal‐organic ligand coordination complexes, and small organic molecules have been reported.…”

Section: Introductionmentioning

confidence: 99%

Benzoselenadiazole‐Based Conjugated Molecules: Active Switching Layers with Nanofibrous Morphology for Nonvolatile Organic Resistive Memory Devices

Jadhav

Kumar

et al. 2020

ChemPlusChem

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In this work, two symmetrical donor-acceptor-donor (D-A-D) type benzoselenadiazole (BSeD)-based π-conjugated molecules were synthesized and employed as an active switching layer for non-volatile data storage applications. BSeD-based derivatives with different donor units attached through common vinylene linkers showed different electrical and optical properties. 4,7-Di ((E)-styryl)benzo[c][2,1,3]selenadiazole (DSBSeD) and 4,7-bis((E)-4-methoxystyryl)benzo[c][2,1,3]selenadiazole (DMBSeD) are sandwiched between gallium-doped ZnO (GZO) and metal aluminum electrodes respectively through solution-processed spin-coating method. The solution-processed nanofibrous switching layer containing the DMBSeD-based memory device showed reliable memory characteristics in terms of write and erase operations with low SET voltage than the randomaggregated DSBSeD-based device. The nanofibrous molecular morphology of switching layer overcomes the interfacial hole transport energy barrier at the interface of the DMBSeD thinfilm and the bottom GZO electrode. The memory device GZO/ DMBSeD/Al based on nanofibrous switching layers shows switching characteristics at compliance current of 10 mA with V set = 0.79 V and V reset = À 0.55 V. This work will be beneficial for the rational design of advanced next-generation organic memory devices by controlling the nanostructured morphology of active organic switching layer for enhanced charge-transfer phenomenon.[a] R.

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“…This development has attracted widespread attention in the industry and academia, and many new investigations of resistive memory have been initiated by researchers [13,14]. The RS effect of the insulator layer has been discovered in various kinds of amorphous metal oxides, such as ZnO, HfO 2 , TiO 2 , MgO, Al 2 O 3 , and Y 2 O 3 [15][16][17][18][19]; and in amorphous perovskite and layered perovskite oxides such as YCrO 3 , Pr 0.67 Sr 0.33 MnO 3 , Bi 3.15 Bd 0.85 Ti 3 O 12 , SrTiO 3 and Nb-doped SrTiO 3 [20][21][22][23][24][25][26], etc. Among these, the amorphous strontium titanate-based memory structure uses the following electrodes: Pt, Ti, and indium tin oxide (ITO) [23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Bipolar resistive switching characteristics of amorphous SrTiO₃thin films prepared by the sol-gel process

Tang

Jiang

et al. 2019

Journal of Asian Ceramic Societies

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Amorphous SrTiO 3 thin films grown on fluorine-doped tin oxide (FTO) glass were fabricated via the sol-gel route and coating process. The composition and chemical state of the thin films were studied by X-ray photoelectron spectroscopy. A high switching ratio and good endurance were demonstrated in the Au/amorphous SrTiO 3 /FTO/glass memory cells, with an ability to achieve a ratio of high and low resistance (R off /R on) of 10 2. A stable switching voltage and uniform resistance states could be identified, moreover, using standard Weibull distribution. The results showed that Ohmic and space charge limited conduction mechanisms coexisted in the amorphous SrTiO 3 thin films. Ohmic conduction dominated in the initial high-and low-resistance state, but the space charge limited conduction mechanism was dominant in the later high-resistance field. The resistance switching effect in the device was explained by the formation and rupture of oxygen vacancies interrelated with filaments. These amorphous SrTiO 3 films have potential resistive memory applications.

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Impact of Schottky junctions in the transformation of switching modes in amorphous Y₂O₃-based memristive system

Cited by 29 publications

References 37 publications

Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Benzoselenadiazole‐Based Conjugated Molecules: Active Switching Layers with Nanofibrous Morphology for Nonvolatile Organic Resistive Memory Devices

Bipolar resistive switching characteristics of amorphous SrTiO₃thin films prepared by the sol-gel process

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Impact of Schottky junctions in the transformation of switching modes in amorphous Y2O3-based memristive system

Cited by 29 publications

References 37 publications

Electroforming-Free Y2O3Memristive Crossbar Array with Low Variability

Electroforming-Free Y2O3Memristive Crossbar Array with Low Variability

Benzoselenadiazole‐Based Conjugated Molecules: Active Switching Layers with Nanofibrous Morphology for Nonvolatile Organic Resistive Memory Devices

Bipolar resistive switching characteristics of amorphous SrTiO3thin films prepared by the sol-gel process

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Impact of Schottky junctions in the transformation of switching modes in amorphous Y₂O₃-based memristive system

Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Electroforming-Free Y₂O₃Memristive Crossbar Array with Low Variability

Bipolar resistive switching characteristics of amorphous SrTiO₃thin films prepared by the sol-gel process