A cooperative photoelectrical strategy is proposed for effectively modulating the performance of a multilevel data-storage device. By taking advantage of organic photoelectronic molecules as storage media, the fabricated device exhibited enhanced working parameters under the action of both optical and electrical inputs. In cooperation with UV light, the operating voltages of the memory device were decreased, which was beneficial for low energy consumption. Moreover, the ON/OFF current ratio was more tunable and facilitated high-resolution multilevel storage. Compared with previous methods that focused on tuning the storage media, this study provides an easy approach for optimizing organic devices through multiple physical channels. More importantly, this method holds promise for integrating multiple functionalities into high-density data-storage devices. Phototrigger happy TV: A cooperative photoelectrical strategy is proposed for improving the working parameters of a ternary memory-storage device. By taking advantage of organic photoelectronic molecules as storage media, this study opens up the possibility of integrating multiple functionalities into a single device for highly efficient multilevel data storage.

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cooperative photoelectrical strategy energy working photoelectronic molecules memory uv multilevel datastorage device multilevel data storage onoff current ternary memorystorage device optical and electrical inputs organic devices highdensity datastorage devices phototrigger happy

Jianmei Lu,Yang Li, Dongyun Chen, Qingfeng Xu, Najun Li, Hua Li, Jinghui He,.Towards Highly-Efficient Phototriggered Data Storage by Utilizing a Diketopyrrolopyrrole-Based Photoelectronic Small Molecule. 11 (13),.

Jianmei Lu, et al."Towards Highly-Efficient Phototriggered Data Storage by Utilizing a Diketopyrrolopyrrole-Based Photoelectronic Small Molecule" 11

Jianmei Lu,Yang Li, Dongyun Chen, Qingfeng Xu, Najun Li, Hua Li, Jinghui He,"Towards Highly-Efficient Phototriggered Data Storage by Utilizing a Diketopyrrolopyrrole-Based Photoelectronic Small Molecule"