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Light Driven Active Transition of Switching Modes in Homogeneous Oxides/Graphene Heterostructure.


ABSTRACT: Depending on the mobile species involved in the resistive switching process, redox random access memories and conductive bridge random access memories are widely studied with distinct switching mechanisms. Although the two resistance switching types have faithfully proved to be electrochemically linked in metal oxide-based memristive devices, the corresponding photo-induced transition has not yet been realized. Here, a photo-induced transition through the integration of a graphene layer into a titanium oxide-based memory device is demonstrated. Coupled with Raman mapping and an electron energy loss spectroscopy technique, the photo-induced interaction at the heterostructure of graphene/titanium oxide are considered to dominate the transition process. Moreover, a negative differential resistance effect is observed by controlling the applied voltage, which can be credited to the saturation of trap centers (oxygen vacancies) and the increase of interfacial barrier at the graphene/titanium oxide heterojunction.

SUBMITTER: Chen X 

PROVIDER: S-EPMC6548956 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Light Driven Active Transition of Switching Modes in Homogeneous Oxides/Graphene Heterostructure.

Chen Xiaoli X   Zeng Kelin K   Zhu Xin X   Ding Guanglong G   Zou Ting T   Zhang Chen C   Zhou Kui K   Zhou Ye Y   Han Su-Ting ST  

Advanced science (Weinheim, Baden-Wurttemberg, Germany) 20190412 11


Depending on the mobile species involved in the resistive switching process, redox random access memories and conductive bridge random access memories are widely studied with distinct switching mechanisms. Although the two resistance switching types have faithfully proved to be electrochemically linked in metal oxide-based memristive devices, the corresponding photo-induced transition has not yet been realized. Here, a photo-induced transition through the integration of a graphene layer into a t  ...[more]

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