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Ultrathin Air-Stable n-Type Organic Phototransistor Array for Conformal Optoelectronics.


ABSTRACT: Development of conformal n-channel organic phototransistor (OPT) array is urgent for future applications of organic complementary circuits in portable and wearable electronics and optoelectronics. In this work, the ultrathin conformal OPT array based on air-stable n-type PTCDI-C13H27 was fabricated. The OPT array shows excellent electrical and photoelectrical performance, good device uniformity, and remains stable in electron mobility by 83% after 90 days compared to the initial values. Eventhough mobility, on-state current, off-state current, and photocurrent of PTCDI-C13H27 thin film phototransistor show slight decrease with the decreased bending radius, the device still remains the stable photosensitivity as high as 104 when the device is freely adhered on the 2D surfaces and 3D hemispherical sphere, which is in a class with the highest photosensitivity for perylene diimide derivatives. These results present the promising application potential of our conformable air-stable n-type PTCDI-C13H27 OPTs as the photodetection system of curved artificial compound eyes in wearable and portable electronics and optoelectronics.

SUBMITTER: Liu M 

PROVIDER: S-EPMC6226476 | biostudies-literature | 2018 Nov

REPOSITORIES: biostudies-literature

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Ultrathin Air-Stable n-Type Organic Phototransistor Array for Conformal Optoelectronics.

Liu Meiling M   Wang Haiting H   Tang Qingxin Q   Zhao Xiaoli X   Tong Yanhong Y   Liu Yichun Y  

Scientific reports 20181109 1


Development of conformal n-channel organic phototransistor (OPT) array is urgent for future applications of organic complementary circuits in portable and wearable electronics and optoelectronics. In this work, the ultrathin conformal OPT array based on air-stable n-type PTCDI-C<sub>13</sub>H<sub>27</sub> was fabricated. The OPT array shows excellent electrical and photoelectrical performance, good device uniformity, and remains stable in electron mobility by 83% after 90 days compared to the in  ...[more]

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