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Origami silicon optoelectronics for hemispherical electronic eye systems

Author

Listed:
  • Kan Zhang

    (University of Wisconsin–Madison)

  • Yei Hwan Jung

    (University of Wisconsin–Madison)

  • Solomon Mikael

    (University of Wisconsin–Madison)

  • Jung-Hun Seo

    (University of Wisconsin–Madison)

  • Munho Kim

    (University of Wisconsin–Madison)

  • Hongyi Mi

    (University of Wisconsin–Madison)

  • Han Zhou

    (University of Wisconsin–Madison)

  • Zhenyang Xia

    (University of Wisconsin–Madison)

  • Weidong Zhou

    (University of Texas at Arlington)

  • Shaoqin Gong

    (University of Wisconsin–Madison)

  • Zhenqiang Ma

    (University of Wisconsin–Madison)

Abstract

Digital image sensors in hemispherical geometries offer unique imaging advantages over their planar counterparts, such as wide field of view and low aberrations. Deforming miniature semiconductor-based sensors with high-spatial resolution into such format is challenging. Here we report a simple origami approach for fabricating single-crystalline silicon-based focal plane arrays and artificial compound eyes that have hemisphere-like structures. Convex isogonal polyhedral concepts allow certain combinations of polygons to fold into spherical formats. Using each polygon block as a sensor pixel, the silicon-based devices are shaped into maps of truncated icosahedron and fabricated on flexible sheets and further folded either into a concave or convex hemisphere. These two electronic eye prototypes represent simple and low-cost methods as well as flexible optimization parameters in terms of pixel density and design. Results demonstrated in this work combined with miniature size and simplicity of the design establish practical technology for integration with conventional electronic devices.

Suggested Citation

  • Kan Zhang & Yei Hwan Jung & Solomon Mikael & Jung-Hun Seo & Munho Kim & Hongyi Mi & Han Zhou & Zhenyang Xia & Weidong Zhou & Shaoqin Gong & Zhenqiang Ma, 2017. "Origami silicon optoelectronics for hemispherical electronic eye systems," Nature Communications, Nature, vol. 8(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01926-1
    DOI: 10.1038/s41467-017-01926-1
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    Cited by:

    1. Changsoon Choi & Henry Hinton & Hyojin Seung & Sehui Chang & Ji Su Kim & Woosang You & Min Sung Kim & Jung Pyo Hong & Jung Ah Lim & Do Kyung Hwang & Gil Ju Lee & Houk Jang & Young Min Song & Dae-Hyeon, 2024. "Anti-distortion bioinspired camera with an inhomogeneous photo-pixel array," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Bo Dai & Liang Zhang & Chenglong Zhao & Hunter Bachman & Ryan Becker & John Mai & Ziao Jiao & Wei Li & Lulu Zheng & Xinjun Wan & Tony Jun Huang & Songlin Zhuang & Dawei Zhang, 2021. "Biomimetic apposition compound eye fabricated using microfluidic-assisted 3D printing," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    3. Zhenghao Long & Xiao Qiu & Chak Lam Jonathan Chan & Zhibo Sun & Zhengnan Yuan & Swapnadeep Poddar & Yuting Zhang & Yucheng Ding & Leilei Gu & Yu Zhou & Wenying Tang & Abhishek Kumar Srivastava & Cunji, 2023. "A neuromorphic bionic eye with filter-free color vision using hemispherical perovskite nanowire array retina," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    4. Xiaopeng Feng & Yuhong He & Wei Qu & Jinmei Song & Wanting Pan & Mingrui Tan & Bai Yang & Haotong Wei, 2022. "Spray-coated perovskite hemispherical photodetector featuring narrow-band and wide-angle imaging," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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