1. Resistive Switching in Polyvinylpyrrolidone/Molybdenum Disulfide Composite-Based Memory Devices.
- Author
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DLAMINI, Z. W., VALLABHAPURAPU, S., SRINIVASAN, A., WU, S., and VALLABHAPURAPU, V. S.
- Subjects
COMPUTER storage devices ,RANDOM access memory ,MOLYBDENUM disulfide ,POVIDONE ,NONVOLATILE random-access memory ,ELECTRIC conductivity - Abstract
Four types of resistive random access memory structures with an active layer comprising: (1) MoS
2 (device A), (2) PVP (device B), (3) PVP and MoS2 bilayer (device C), and (4) PVP + MoS2 nanocomposites with 10 (device D), 20 (device E), 30 (device F) and 40 wt% (device G) MoS2 , have been fabricated with Al and Ag as bottom and top electrodes, respectively. A study of resistive switching and electrical conduction mechanisms of these resistive random access memory modules revealed that devices A and B did not exhibit switching characteristics. Device C showed a combination of bipolar and threshold switching with a low switching voltage of 0:40 V. Device G portrayed bipolar switching at 0:56 V. In device C, space charge-limited conduction with a transition voltage Vtr = 0:24 V was observed, whereas in device G, Ohmic behaviour between 0.0 and 0.22 V, followed by trapping of charge in the 0.22-0.56 V regime before switching, was noticed. Both devices C and G showed a reasonable (≥ 10²) ON/OFF ratio. In nanocomposite devices, an increase in MoS2 content resulted in an increase in electrical conductivity in the Ohmic region, leading to threshold switching at 30 wt% (device F) and ultimately bipolar switching at 40 wt% (device G). These studies have shown that both switching and conduction mechanisms are sensitive to the type and composition of the active layer in the devices studied. [ABSTRACT FROM AUTHOR]- Published
- 2022
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