Single Polymer‐Based Ternary Electronic Memory Material and Device

Liu, Shujuan; Wang, Peng; Zhao, Qiang; Yang, Hui Ying; Wong, Jen It; Sun, Huibin; Dong, Xiaochen; Lin, Wenpeng; Huang, Wei

doi:10.1002/adma.201104307

Cited by 189 publications

(115 citation statements)

References 36 publications

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“…[30][31][32] For example, from the regiorandom to regioregular alignments of side carbazoles in PVK derivatives corresponds to the transition from low to high conductivity states. [30][31][32] For example, from the regiorandom to regioregular alignments of side carbazoles in PVK derivatives corresponds to the transition from low to high conductivity states.…”

Section: Memory Device Performance and Their Mechanismsmentioning

confidence: 99%

The synthesis and flash memory behavior of alternate copolymer containing carbazole donor and perylenediimide derivatives acceptor by the hybridization of organo-silicon

Tan

Sun

et al. 2015

J. Mater. Chem. C

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In this study, two new donor-acceptor alternate copolysiloxanes containing carbazole and PDI derivatives pendants (PCzMSi-alt-PDISi and PCzPhSi-alt-PDISi) were prepared. The two copolysiloxanes showed the resistor type memory behavior. The memory devices based on PCzMSi-alt-PDISi and PCzPhSi-alt-PDISi exhibited nonvolatile flash memory characteristics, with an ON/OFF current density ratio of 10 3 and low threshold voltages (less than 1 V). As far as we know, it is the first nonvolatile flash memory device reported with the lowest threshold voltage based on the copolymer due to high flexibility of Si-O bonds.The conformation change from the regiorandom and regioregular alignments and the charge transfer interactions between pendent carbazole donor and PDI acceptor moieties as well as the unstable CT complex explain their memory characteristics. Our results open a new way to prepare the low-energy cost flash memory devices with the donor-acceptor pendent polysiloxanes.

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Section: Memory Device Performance and Their Mechanismsmentioning

confidence: 99%

The synthesis and flash memory behavior of alternate copolymer containing carbazole donor and perylenediimide derivatives acceptor by the hybridization of organo-silicon

Tan

Sun

et al. 2015

J. Mater. Chem. C

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“…This multilevel RRAM technique is expected to result in a revolutionary enhancement in the information density from 2 n to X n (where n is the cell density and X is the state number of each cell). 6 …”

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confidence: 99%

Surface engineering to achieve organic ternary memory with a high device yield and improved performance

et al. 2017

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“…Fabrication of well-ordered soft-matter-based micro and nano structures over large area has drawn great interests in recent years due to their increasing applicability in polymer electronics1, soft machines2, flash memory, chemical and biosensors345, particularly biological applications such as tissue-engineering6, surface modification78 and microfluidics9. Owing to the importance associated with the soft-matter-based micro and nano structures, numerous conventional experimental methods have been developed to date to fabricate the pattern of functional soft-matters, such as photolithography10, inkjet printing11, direct-laser writing12, dip-pen and polymer pen lithography131415.…”

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confidence: 99%

Fabrication of Ultrafine Soft-Matter Arrays by Selective Contact Thermochemical Reaction

Cai

Wang²,

Wang

et al. 2013

Sci Rep

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Patterning of functional soft matters at different length scales is important for diverse research fields including cell biology, tissue engineering and medicinal science and the development of optics and electronics. Here we have further improved a simple but very efficient method, selective contact thermochemical reaction (SCTR), for patterning soft matters over large area with a sub-100 nm resolution. By selecting contact between different precursors through a topographically patterned PDMS stamp and subsequently any heating way for thermalchemical reaction, thermal-related soft matters can be patterned to form controllable micro or nano structures, even three-dimensional structures. The fine tunability and controllability of as-prepared micro and nano structures demonstrate this versatile approach a far wide range of uses than the merely academic.

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Single Polymer‐Based Ternary Electronic Memory Material and Device

Cited by 189 publications

References 36 publications

The synthesis and flash memory behavior of alternate copolymer containing carbazole donor and perylenediimide derivatives acceptor by the hybridization of organo-silicon

The synthesis and flash memory behavior of alternate copolymer containing carbazole donor and perylenediimide derivatives acceptor by the hybridization of organo-silicon

Surface engineering to achieve organic ternary memory with a high device yield and improved performance

Fabrication of Ultrafine Soft-Matter Arrays by Selective Contact Thermochemical Reaction

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