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Patterning two-dimensional chalcogenide crystals of Bi2Se3 and In2Se3 and efficient photodetectors

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  • Wenshan Zheng

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Tian Xie

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Yu Zhou

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Y. L. Chen

    (University of Oxford)

  • Wei Jiang

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Shuli Zhao

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Jinxiong Wu

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Yumei Jing

    (Key Laboratory for the Physics and Chemistry of Nanodevices, Peking University)

  • Yue Wu

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Guanchu Chen

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Yunfan Guo

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Jianbo Yin

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Shaoyun Huang

    (Key Laboratory for the Physics and Chemistry of Nanodevices, Peking University)

  • H. Q. Xu

    (Key Laboratory for the Physics and Chemistry of Nanodevices, Peking University
    Lund University)

  • Zhongfan Liu

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

  • Hailin Peng

    (Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences (BNLMS), State Key Laboratory for Structural Chemistry of Unstable and Stable Species, College of Chemistry and Molecular Engineering, Peking University)

Abstract

Patterning of high-quality two-dimensional chalcogenide crystals with unique planar structures and various fascinating electronic properties offers great potential for batch fabrication and integration of electronic and optoelectronic devices. However, it remains a challenge that requires accurate control of the crystallization, thickness, position, orientation and layout. Here we develop a method that combines microintaglio printing with van der Waals epitaxy to efficiently pattern various single-crystal two-dimensional chalcogenides onto transparent insulating mica substrates. Using this approach, we have patterned large-area arrays of two-dimensional single-crystal Bi2Se3 topological insulator with a record high Hall mobility of ∼1,750 cm2 V−1 s−1 at room temperature. Furthermore, our patterned two-dimensional In2Se3 crystal arrays have been integrated and packaged to flexible photodetectors, yielding an ultrahigh external photoresponsivity of ∼1,650 A W−1 at 633 nm. The facile patterning, integration and packaging of high-quality two-dimensional chalcogenide crystals hold promise for innovations of next-generation photodetector arrays, wearable electronics and integrated optoelectronic circuits.

Suggested Citation

  • Wenshan Zheng & Tian Xie & Yu Zhou & Y. L. Chen & Wei Jiang & Shuli Zhao & Jinxiong Wu & Yumei Jing & Yue Wu & Guanchu Chen & Yunfan Guo & Jianbo Yin & Shaoyun Huang & H. Q. Xu & Zhongfan Liu & Hailin, 2015. "Patterning two-dimensional chalcogenide crystals of Bi2Se3 and In2Se3 and efficient photodetectors," Nature Communications, Nature, vol. 6(1), pages 1-8, November.
  • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7972
    DOI: 10.1038/ncomms7972
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    Cited by:

    1. Seongheon Baek & Hyeong Woo Ban & Sanggyun Jeong & Seung Hwae Heo & Da Hwi Gu & Wooyong Choi & Seungjun Choo & Yae Eun Park & Jisu Yoo & Moon Kee Choi & Jiseok Lee & Jae Sung Son, 2022. "Generalised optical printing of photocurable metal chalcogenides," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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