Methods of Set Switching for Improving the Uniformity of Filament Formation in the TiO[sub 2] Thin Film

Kim, Kyung Min; Song, Seul Ji; Kim, Gon−Ho; Seok, Joon Young; Lee, Min Hwan; Zhao, Jiahao; Hwang, Cheol Seong

doi:10.1149/1.3369469

Cited by 8 publications

(10 citation statements)

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“…In fact, the large fluctuations in the I–V curves for the given memory cell has been one of the big hurdles that the RS memory has to overcome to become a viable memory device. There have been several reports on the possible origins of and solutions to this critical problem 25 26 . The present work can add a meaningful improvement in the understanding of such important topic, which will trigger clever ways of overcoming such problem in the future.…”

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confidence: 99%

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Kim

Park

Hwang

2015

Sci Rep

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The resetting behaviors of Pt/TiO2/Pt resistive switching (RS) cell in unipolar RS operations were studied in detail through an experiment and by modeling. The experiment showed that the apparently highly arbitrary resetting current-voltage (I–V) curves could be grouped into three types: normal, delayed, and abnormal behaviors. A dual conical conducting filament (CF) model was conceived, and their electrothermal behaviors were analytically described from the heat-balance and charge-transport equations. The almost spontaneous resetting behavior of the normal reset could be easily understood from the mutually constructive interference effect between the Joule heating and temperature-dependent resistance effect along the CF. The delayed reset could be explained by the time-dependent increase in the reset voltage during the rest process, which was most probably induced in the more conical-shaped CF. The abnormal reset could be understood from the temporal transfer of oxygen ions near the kink positions of the two different-diameter portions of the more cylindrical CFs, which temporally decreases the overall resistance immediately prior for the actual reset to occur. The accuracy of the dual conical CF model was further confirmed by adopting a more thorough electrothermal simulation package, COMSOL.

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confidence: 99%

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Kim

Park

Hwang

2015

Sci Rep

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“…10 Lastly, the external resistance not only possibly increases the RC delay of the RRAM element but also increases the parasitic capacitor effect on the transition switching, potentially limiting the operating speed of the memory device and causing reliability issue. 11,12 To better observe the true operating characteristics, we fabricated SiO x RRAM devices with a Metal-Insulator-Metal (MIM) structure. The metal electrodes allow contact resistance and interconnect resistance to be minimized so that the external series resistance is negligible.…”

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confidence: 99%

Characterization of external resistance effect and performance optimization in unipolar-type SiOx-based resistive switching memory

Zhou

Chang

Byun

et al. 2014

Applied Physics Letters

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SiOx-based resistive random access memory devices with metal-insulator-metal structure are compared to metal-insulator-semiconductor structures, and the effects of external resistance on device performance are characterized. The different reset behaviors are explained as a positive feedback mechanism involving a sudden voltage decrease across the external series resistance when the reset process commences. By varying external resistance, we observe a constant threshold voltage (2.46 V) for the reset process that is possibly due to a voltage-triggered switching mechanism. Our experimental results not only clarify the reset mechanism but also provide insights on optimization of external resistance for programing reliability and operating speed.

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“…In the T-45 device in Figure a, after the EF occurred at ∼2.0 V, the device remained at the LRS during the subsequent sweep to ∼−0.7 V, and the device turned into the HRS after the sweep down to −1.3 V. The comparison between the black curve and the other curves shows a peculiar property of the device immediately after the EF. Despite the I CC being controlled as low as possible, the first LRS showed a relatively higher conductance state than the subsequent LRSs, which originates from the capacitive charge effect. , Such excess EF behavior should be avoided to achieve longer retention and higher endurance, because it generates excess filaments, causing higher variation of the RS and faster device degradation. As the EF voltage is proportional to the film thickness, one of the most feasible methods to do this is to decrease the HfO 2 thickness .…”

Section: Basic Switching Characteristicsmentioning

confidence: 99%

“…Here, the R-45 and T-45 devices showed lower R LRS with a higher variation than those of the R-30 device, although their HfO 2 film was thicker. Such variation was caused by “over-forming” during the EF process. , Once the ReRAM cell is over-formed, the stochasticity of the RS increases, which causes a higher variation in the device uniformity. Figure e shows the average resistance values of LRSs and HRSs over 100 cycles from one typical cell.…”

Section: Basic Switching Characteristicsmentioning

confidence: 99%

“…Despite the I CC being controlled as low as possible, the first LRS showed a relatively higher conductance state than the subsequent LRSs, which originates from the capacitive charge effect. 50,51 Such excess EF behavior should be avoided to achieve longer retention and higher endurance, because it generates excess filaments, causing higher variation of the RS and faster device degradation. As the EF voltage is proportional to the film thickness, one of the most feasible methods to do this is to decrease the HfO 2 thickness.…”

Section: Basic Switching Characteristicsmentioning

confidence: 99%

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Defect-Engineered Electroforming-Free Analog HfO_x Memristor and Its Application to the Neural Network

Kim

Song

Lee

et al. 2019

ACS Appl. Mater. Interfaces

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The thin-film growth conditions in a plasma-enhanced atomic layer deposition for the (3.0–4.5) nm thick HfO2 film were optimized to use the film as the resistive switching element in a neuromorphic circuit. The film was intended to be used as a feasible synapse with analog-type conductance-tuning capability. The 4.5 nm thick HfO2 films on both conventional TiN and a new RuO2 bottom electrode required the electroforming process for them to operate as a feasible resistive switching memory, which was the primary source of the undesirable characteristics as the synapse. Therefore, electroforming-free performance was necessary, which could be accomplished by thinning the HfO2 film down to 3.0 nm. However, the device with only the RuO2 bottom electrode offered the desired functionality without involving too high leakage or shorting problems, which are due to the recovery of the stoichiometric composition of the HfO2 near the RuO2 layer. In conjunction with the Ta top electrode, which provided the necessary oxygen vacancies to the HfO2 layer, and the high functionality of the RuO2 as the scavenger of excessive incorporated oxygen vacancies, which appeared to be inevitable during the repeated switching operation, the Ta/3.0 nm HfO2/RuO2 provided a highly useful synaptic device component in the neuromorphic hardware system.

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Methods of Set Switching for Improving the Uniformity of Filament Formation in the TiO[sub 2] Thin Film

Cited by 8 publications

References 10 publications

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Characterization of external resistance effect and performance optimization in unipolar-type SiOx-based resistive switching memory

Defect-Engineered Electroforming-Free Analog HfO_x Memristor and Its Application to the Neural Network

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Methods of Set Switching for Improving the Uniformity of Filament Formation in the TiO[sub 2] Thin Film

Cited by 8 publications

References 10 publications

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Dual Conical Conducting Filament Model in Resistance Switching TiO2 Thin Films

Characterization of external resistance effect and performance optimization in unipolar-type SiOx-based resistive switching memory

Defect-Engineered Electroforming-Free Analog HfOx Memristor and Its Application to the Neural Network

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Product

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Defect-Engineered Electroforming-Free Analog HfO_x Memristor and Its Application to the Neural Network