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Article Abstract
Semiconducting single-walled carbon nanotubes (-SWNTs) have arisen a growing interest in field-effect transistors (FETs) due to their advantages, such as lower fabrication temperature, flexibility, and solution processing applicability, compared to traditional silicon-based FETs. In this study, diversifying the functionality of -SWNT-based FETs is focused on, particularly emphasizing their use in nonvolatile photomemory applications. By selectively wrapping -SWNT with n-type conjugated polymers (CPs), electron-trapping and photoresponsive capabilities are endowed in the device. After optimizing the structure and aggregating behavior of n-type CPs, a favorable supramolecular network comprising -SWNT and CPs is formed and applied in phototransistor memory. Accordingly, the device exhibits a high memory ratio and window of 10 and 75.7 V, representing its remarkable charge-storage capabilities. In addition, the device demonstrates decent long-term stability over 10 s and multilevel memory behavior driven by the varied gate bias or accumulated light-gating periods. The proposed memory mechanism involves electrical writing and photoerasing processes with the existence of n-type CPs on -SWNT, revealing the underlying principles of charge transfer between their heterojunction interfaces. Herein, this research contributes to developing advanced phototransistor memory, offering a promising avenue for future electronic applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11935074 | PMC |
| http://dx.doi.org/10.1002/smsc.202300268 | DOI Listing |
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