Solution-Processable ZnO Thin Film Memristive Device for Resistive Random Access Memory Application

Patil, Swapnil R.; Chougale, Mahesh Y.; Rane, Tushar D.; Khot, Sagar S.; Patil, A.A.; Bagal, Ojus S.; Jadhav, S. T.; Sheikh, Arif D.; Kim, Sungjun; Dongale, Tukaram D.

doi:10.3390/electronics7120445

Cited by 43 publications

(20 citation statements)

References 40 publications

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“…Considered as a fourth fundamental circuit element along with resistor, capacitor, and an inductor 32 , the memristive devices are better known for their memory with resistance property. The memristive devices basically depend on two important recognition criteria such as hysteresis loop in I-V plane and frequency-dependent I-V hysteresis loop or limiting linear characteristic [33][34][35] . As per the theory of limiting linear characteristics, the I-V hysteresis loop shrinks as the frequency of applied signal increases.…”

mentioning

confidence: 99%

Selective interaction between phytomediated anionic silver nanoparticles and mercury leading to amalgam formation enables highly sensitive, colorimetric and memristor-based detection of mercury

Sangaonkar

Desai

Dongale

et al. 2020

Sci Rep

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presently, nanotechnology is being foreseen to play an important role in developing analytical assays for the detection of pollutants like mercury (Hg 2+ ). in this study, Kokum fruit mediated silver nanoparticles (AgNPs) were differentially centrifuged to prepare anionic, monodispersed AgNPs to develop a highly sensitive, colorimetric and memristor-based assay for detection of Hg 2+ in water samples. the investigation of the highly selective reaction between Agnps and Hg 2+ using HAADf-SteM images and eDS spectrum indicated the amalgam formation through etching and under potential deposition which resulted in a visible color change from brown to colorless, change in SpR intensity and also change in memristive switching like property of Agnps. the developed colorimetric assay detected Hg 2+ with a limit of detection (LOD) of 6.2 ppb and limit of quantification (LOQ) of 18.9 ppb and, quantitatively recovered Hg 2+ with good accuracy and precision (RSD < 2%). Further, the test of memristive switching like property of AgNPs demonstrated frequency-dependent shrinkage of i-V hysteresis loop indicating memristive switching like property. the test of the sensitivity of Hg 2+ detection was estimated to be 8.7 ppb as the LOD and 26.4 ppb as LOQ. Like the colorimetric assay, the memristor-based assay also recovered Hg 2+ with good accuracy and precision.Residues of mercury (Hg) based organic and inorganic compounds that are used as pesticide or fungicides in agriculture practices can accumulate in aquatic organisms. The residual toxicity of Hg can lead to serious health issues in animals and humans who consume such contaminated aquatic organisms 1 . Coal-burning power plants are the main sources of the pollution of Hg. In addition, other sources from natural and human activities are also known to contribute to Hg pollution 2,3 . It is known that water dissolved ions of mercury (Hg 2+ ) are the most common and stable form of Hg for which point of care detection is necessary to detect and monitor the Hg 2+ levels. Devising selective and sensitive methods for point of care detection of Hg 2+ from clinical diagnostics, household, environment, and industrial waste samples is expected to greatly help protect public health and the environment 4 .Recently, nanotechnology has been foreseen to play a significant and important role in developing the lab-on-chip devices for the detection of environmental pollutants. Metal nanoparticles (NPs) such a silver NPs (AgNPs) and gold NPs (AuNPs) have been demonstrated for their use in heavy metal sensing application 4-8 . Recently, differently synthesized and modified AgNPs and AuNPs were demonstrated for their use in Hg 2+ detection 9-12 . It is noteworthy that all these studies reported the need for functionalization and formation of the complex of a ligand with Hg 2+ for detection. The procedures of surface functionalization of nanomaterials (NMs) are www.nature.com/scientificreports www.nature.com/scientificreports/ somewhat tedious, prone to contamination, require sophisticated instrumen...

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mentioning

confidence: 99%

Selective interaction between phytomediated anionic silver nanoparticles and mercury leading to amalgam formation enables highly sensitive, colorimetric and memristor-based detection of mercury

Sangaonkar

Desai

Dongale

et al. 2020

Sci Rep

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“…Therefore, the devices exhibited an ohmic transport mechanism at the LRS, as shown in step 4 in Figure 11 . When applying a negative bias to the top Ag electrode, the Ag filaments were oxidized into Ag + ions and then reduced at the Ag electrode, leading to the rupture of the filament conduction path corresponding to the switching of these devices from a LRS to a HRS [ 33 ], as depicted the step 5 in Figure 11 .…”

Section: Resultsmentioning

confidence: 99%

Li-Doping Effect on Characteristics of ZnO Thin Films Resistive Random Access Memory

et al. 2020

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In this study, a Pt/Ag/LZO/Pt resistive random access memory (RRAM), doped by different Li-doping concentrations was designed and fabricated by using a magnetron sputtering method. To determine how the Li-doping concentration affects the crystal lattice structure in the composite ZnO thin films, X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS) tests were carried out. The resistive switching behaviors of the resulting Pt/Ag/LZO/Pt devices, with different Li-doping contents, were studied under direct current (DC) and pulse voltages. The experimental results showed that compared with the devices doped with Li-8% and -10%, the ZnO based RRAM device doped by 5% Li-doping presented stable bipolar resistive switching behaviors with DC voltage, including a low switching voltage (<1.0 V), a high endurance (>103 cycles), long retention time (>104 s), and a large resistive switching window. In addition, quick switching between a high-resistance state (HRS) and a low-resistance state (LRS) was achieved at a pulse voltage. To investigate the resistive switching mechanism of the device, a conduction model was installed based on Ag conducting filament transmission. The study of the resulting Pt/Ag/LZO/Pt devices makes it possible to further improve the performance of RRAM devices.

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“…ZnO是一种常见的二元过渡金属氧化物半导体材料 [14] , 具有优异的光学和电学性能, 不仅广泛应用于半导体薄膜晶体管 [15] 、发光二极管 [16] 、光催化 [17] 和钙钛矿太阳能电池 [18,19] 等多个研究领域, 而且在RRAM领域也颇具应用潜力 [20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35] . 制备ZnO薄膜常见方法主要有磁控溅射法(Magnetron Sputtering) [20][21][22][23][24][25] 、原子层沉积法 (ALD) [26][27][28] 、脉冲激光沉积法(PLD) [29][30][31] 以及溶液法 (Solution Method) [32][33][34][35]…”

Section: 高的Rram回归研究者视野 2000年 Prunclassified

Endurance degradation of solution-processed ZnO polycrystalline film-based resistive switching memory

Wang¹,

Wang²,

Jiang³

et al. 2020

Sci. Sin.-Phys. Mech. Astron.

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Solution-Processable ZnO Thin Film Memristive Device for Resistive Random Access Memory Application

Cited by 43 publications

References 40 publications

Selective interaction between phytomediated anionic silver nanoparticles and mercury leading to amalgam formation enables highly sensitive, colorimetric and memristor-based detection of mercury

Selective interaction between phytomediated anionic silver nanoparticles and mercury leading to amalgam formation enables highly sensitive, colorimetric and memristor-based detection of mercury

Li-Doping Effect on Characteristics of ZnO Thin Films Resistive Random Access Memory

Endurance degradation of solution-processed ZnO polycrystalline film-based resistive switching memory

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