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A hemispherical electronic eye camera based on compressible silicon optoelectronics

Author

Listed:
  • Heung Cho Ko

    (Department of Materials Science and Engineering,)

  • Mark P. Stoykovich

    (Department of Materials Science and Engineering,)

  • Jizhou Song

    (Department of Mechanical Science and Engineering,)

  • Viktor Malyarchuk

    (Frederick-Seitz Materials Research Laboratory,)

  • Won Mook Choi

    (Department of Materials Science and Engineering,)

  • Chang-Jae Yu

    (Department of Materials Science and Engineering,)

  • Joseph B. Geddes III

    (Beckman Institute for Advanced Science and Technology,)

  • Jianliang Xiao

    (Department of Mechanical Engineering,)

  • Shuodao Wang

    (Department of Mechanical Engineering,)

  • Yonggang Huang

    (Department of Mechanical Engineering,
    Northwestern University, Evanston, Illinois 60208, USA)

  • John A. Rogers

    (Department of Materials Science and Engineering,
    Department of Mechanical Science and Engineering,
    Frederick-Seitz Materials Research Laboratory,
    Beckman Institute for Advanced Science and Technology,)

Abstract

Looking Good: An electronic camera that shapes up like a human eye The electronic eye camera shown on the cover is a notable advance in optoelectronics. Even with the latest technologies it is difficult to produce a device to match the feats of imaging achieved by the human eye. Its hemispherical detector provides a wide field of view and low aberrations, using simple, single-component optics. Conventional optoelectronics materials exist only on the planar surfaces of rigid semiconductor wafers and cannot adopt spherical shapes. Now a multidisciplinary team based at the University of Illinois at Urbana-Champaign and Northwestern University, Evanston, has created an electronic eye-like camera based on single-crystalline silicon technology. Two novel fabrication steps make this possible. First, the optoelectronic circuits are ultra-thin in unusual, two-dimensionally compressible configurations; second, specially designed elastomeric elements transfer these planar layouts into hemispherical geometries. In addition to eye-like cameras, these strategies should make it possible to integrate planar device technologies onto the surfaces of complex curvilinear objects, for use in health monitoring devices, 'smart' prosthetics and elsewhere.

Suggested Citation

  • Heung Cho Ko & Mark P. Stoykovich & Jizhou Song & Viktor Malyarchuk & Won Mook Choi & Chang-Jae Yu & Joseph B. Geddes III & Jianliang Xiao & Shuodao Wang & Yonggang Huang & John A. Rogers, 2008. "A hemispherical electronic eye camera based on compressible silicon optoelectronics," Nature, Nature, vol. 454(7205), pages 748-753, August.
    • Handle: RePEc:nat:nature:v:454:y:2008:i:7205:d:10.1038_nature07113
    DOI: 10.1038/nature07113
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    Cited by:

    1. 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.
    2. 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.
    3. Yuchen Qiu & Bo Zhang & Junchuan Yang & Hanfei Gao & Shuang Li & Le Wang & Penghua Wu & Yewang Su & Yan Zhao & Jiangang Feng & Lei Jiang & Yuchen Wu, 2021. "Wafer-scale integration of stretchable semiconducting polymer microstructures via capillary gradient," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    4. Zhi-Yong Hu & Yong-Lai Zhang & Chong Pan & Jian-Yu Dou & Zhen-Ze Li & Zhen-Nan Tian & Jiang-Wei Mao & Qi-Dai Chen & Hong-Bo Sun, 2022. "Miniature optoelectronic compound eye camera," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    5. Xu Luo & Chen Chen & Zixi He & Min Wang & Keyuan Pan & Xuemei Dong & Zifan Li & Bin Liu & Zicheng Zhang & Yueyue Wu & Chaoyi Ban & Rong Chen & Dengfeng Zhang & Kaili Wang & Qiye Wang & Junyue Li & Gan, 2024. "A bionic self-driven retinomorphic eye with ionogel photosynaptic retina," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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