Carrier Type Exchange with the Sweep Direction in a WORM Memory Device

Abstract: In the present study, we have investigated the charge transport mechanism of the resistive switching phenomenon of a write-once-read-many-times (WORM)-type memory device. Phenol red sodium salt (PRSS), a xanthene dye, has been used as the active layer. Gold (Au) and ITO have been used as top and bottom electrodes, respectively. The electron transport and hole transport mechanisms predominate in positive and negative sweep voltages, respectively. This has been confirmed from density functional theory calculatio… Show more

“…6–16 As part of the family of electronic devices, organic electrical memory devices have attracted enormous attention. 17–33 Recently, stimuli-responsive materials have been introduced into organic electrical memory devices realizing novel performance. For example, Song and co-workers developed photoinduced multilevel memory devices whose performance could be easily tuned and controlled from bistable switching behaviour to tristable switching behaviour through UV light.…”

A metastable small organic molecule for secure memory devices

“…6–16 As part of the family of electronic devices, organic electrical memory devices have attracted enormous attention. 17–33 Recently, stimuli-responsive materials have been introduced into organic electrical memory devices realizing novel performance. For example, Song and co-workers developed photoinduced multilevel memory devices whose performance could be easily tuned and controlled from bistable switching behaviour to tristable switching behaviour through UV light.…”

A metastable small organic molecule for secure memory devices

Confirmation of charge carriers’ types based on HOMO-LUMO positions in the active layer of a WORM memory device

Chemical states, structural, electronic possessions, and conduction phenomena of Ti/MoO3/p-InP heterojunctions with a high-k molybdenum trioxide interlayer