Myung-Won Lee scite author profile

Complementary metal–oxide–semiconductor (CMOS) colour image sensors are representative examples of light-detection devices. To achieve extremely high resolutions, the pixel sizes of the CMOS image sensors must be reduced to less than a micron, which in turn significantly limits the number of photons that can be captured by each pixel using silicon (Si)-based technology (i.e., this reduction in pixel size results in a loss of sensitivity). Here, we demonstrate a novel and efficient method of increasing the sensitivity and resolution of the CMOS image sensors by superposing an organic photodiode (OPD) onto a CMOS circuit with Si photodiodes, which consequently doubles the light-input surface area of each pixel. To realise this concept, we developed organic semiconductor materials with absorption properties selective to green light and successfully fabricated highly efficient green-light-sensitive OPDs without colour filters. We found that such a top light-receiving OPD, which is selective to specific green wavelengths, demonstrates great potential when combined with a newly designed Si-based CMOS circuit containing only blue and red colour filters. To demonstrate the effectiveness of this state-of-the-art hybrid colour image sensor, we acquired a real full-colour image using a camera that contained the organic-on-Si hybrid CMOS colour image sensor.

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A New Programming Disturbance Phenomenon in NAND Flash Memory By Source/Drain Hot-Electrons Generated By GIDL Current

Lee

et al.

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Switching and memory characteristics of thin films of an ambipolar organic compound: effects of device processing and electrode materials

Lee

Pearson

Moon

et al. 2014

J. Phys. D: Appl. Phys.

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Myung-Won Lee

Organic-on-silicon complementary metal–oxide–semiconductor colour image sensors

A New Programming Disturbance Phenomenon in NAND Flash Memory By Source/Drain Hot-Electrons Generated By GIDL Current

Switching and memory characteristics of thin films of an ambipolar organic compound: effects of device processing and electrode materials

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