Your search keyword '"Mohan, Sivasakthya"' showing total 2 results

1. Reliability Improvement and Effective Switching Layer Model of Thin‐Film MoS2 Memristors.

Author

Huang, Yifu, Gu, Yuqian, Mohan, Sivasakthya, Dolocan, Andrei, Ignacio, Nicholas D., Kutagulla, Shanmukh, Matthews, Kevin, Londoño‐Calderon, Alejandra, Chang, Yao‐Feng, Chen, Ying‐Chen, Warner, Jamie H., Pettes, Michael T., Lee, Jack C., and Akinwande, Deji

Subjects

MONTE Carlo method, STATISTICAL measurement, STRUCTURAL optimization, MEMRISTORS, CYCLING

Abstract

2D memristors have demonstrated attractive resistive switching characteristics recently but also suffer from the reliability issue, which limits practical applications. Previous efforts on 2D memristors have primarily focused on exploring new material systems, while damage from the metallization step remains a practical concern for the reliability of 2D memristors. Here, the impact of metallization conditions and the thickness of MoS2 films on the reliability and other device metrics of MoS2‐based memristors is carefully studied. The statistical electrical measurements show that the reliability can be improved to 92% for yield and improved by ≈16× for average DC cycling endurance in the devices by reducing the top electrode (TE) deposition rate and increasing the thickness of MoS2 films. Intriguing convergence of switching voltages and resistance ratio is revealed by the statistical analysis of experimental switching cycles. An "effective switching layer" model compatible with both monolayer and few‐layer MoS2, is proposed to understand the reliability improvement related to the optimization of fabrication configuration and the convergence of switching metrics. The Monte Carlo simulations help illustrate the underlying physics of endurance failure associated with cluster formation and provide additional insight into endurance improvement with device fabrication optimization. [ABSTRACT FROM AUTHOR]

Published

2024

2. Sulfurization Engineering of One‐Step Low‐Temperature MoS2 and WS2 Thin Films for Memristor Device Applications.

Author

Gu, Yuqian, Serna, Martha I., Mohan, Sivasakthya, Londoño‐Calderon, Alejandra, Ahmed, Taimur, Huang, Yifu, Lee, Jack, Walia, Sumeet, Pettes, Michael T., Liechti, Kenneth M., and Akinwande, Deji

Subjects

THIN film devices, SAPPHIRES, MEMRISTORS, THIN films, HIGH temperatures

Abstract

2D materials have been of considerable interest as new materials for device applications. Non‐volatile resistive switching applications of MoS2 and WS2 have been previously demonstrated; however, these applications are dramatically limited by high temperatures and extended times needed for the large‐area synthesis of 2D materials on crystalline substrates. The experimental results demonstrate a one‐step sulfurization method to synthesize MoS2 and WS2 at 550 °C in 15 min on sapphire wafers. Furthermore, a large area transfer of the synthesized thin films to SiO2/Si substrates is achieved. Following this, MoS2 and WS2 memristors are fabricated that exhibit stable non‐volatile switching and a satisfactory large on/off current ratio (103–105) with good uniformity. Tuning the sulfurization parameters (temperature and metal precursor thickness) is found to be a straightforward and effective strategy to improve the performance of the memristors. The demonstration of large‐scale MoS2 and WS2 memristors with a one‐step low‐temperature sulfurization method with simple strategy to tuning can lead to potential applications such as flexible memory and neuromorphic computing. [ABSTRACT FROM AUTHOR]

Published

2022