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Large-area, flexible imaging arrays constructed by light-charge organic memories.


ABSTRACT: Existing organic imaging circuits, which offer attractive benefits of light weight, low cost and flexibility, are exclusively based on phototransistor or photodiode arrays. One shortcoming of these photo-sensors is that the light signal should keep invariant throughout the whole pixel-addressing and reading process. As a feasible solution, we synthesized a new charge storage molecule and embedded it into a device, which we call light-charge organic memory (LCOM). In LCOM, the functionalities of photo-sensor and non-volatile memory are integrated. Thanks to the deliberate engineering of electronic structure and self-organization process at the interface, 92% of the stored charges, which are linearly controlled by the quantity of light, retain after 20000 s. The stored charges can also be non-destructively read and erased by a simple voltage program. These results pave the way to large-area, flexible imaging circuits and demonstrate a bright future of small molecular materials in non-volatile memory.

SUBMITTER: Zhang L 

PROVIDER: S-EPMC3546321 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Large-area, flexible imaging arrays constructed by light-charge organic memories.

Zhang Lei L   Wu Ti T   Guo Yunlong Y   Zhao Yan Y   Sun Xiangnan X   Wen Yugeng Y   Yu Gui G   Liu Yunqi Y  

Scientific reports 20130116


Existing organic imaging circuits, which offer attractive benefits of light weight, low cost and flexibility, are exclusively based on phototransistor or photodiode arrays. One shortcoming of these photo-sensors is that the light signal should keep invariant throughout the whole pixel-addressing and reading process. As a feasible solution, we synthesized a new charge storage molecule and embedded it into a device, which we call light-charge organic memory (LCOM). In LCOM, the functionalities of  ...[more]

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