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High-entropy alloy nanopatterns by prescribed metallization of DNA origami templates

Author

Listed:
  • Mo Xie

    (Nanjing University of Posts and Telecommunications
    Chinese Academy of Sciences)

  • Weina Fang

    (East China Normal University
    Tongji University)

  • Zhibei Qu

    (Fudan University)

  • Yang Hu

    (Nanjing University of Posts and Telecommunications)

  • Yichi Zhang

    (Shanghai Jiao Tong University)

  • Jie Chao

    (Nanjing University of Posts and Telecommunications)

  • Jiye Shi

    (Chinese Academy of Sciences)

  • Lihua Wang

    (Chinese Academy of Sciences)

  • Lianhui Wang

    (Nanjing University of Posts and Telecommunications)

  • Yang Tian

    (East China Normal University)

  • Chunhai Fan

    (Shanghai Jiao Tong University)

  • Huajie Liu

    (Tongji University)

Abstract

High-entropy multimetallic nanopatterns with controlled morphology, composition and uniformity hold great potential for developing nanoelectronics, nanophotonics and catalysis. Nevertheless, the lack of general methods for patterning multiple metals poses a limit. Here, we develop a DNA origami-based metallization reaction system to prescribe multimetallic nanopatterns with peroxidase-like activities. We find that strong coordination between metal elements and DNA bases enables the accumulation of metal ions on protruding clustered DNA (pcDNA) that are prescribed on DNA origami. As a result of the condensation of pcDNA, these sites can serve as nucleation site for metal plating. We have synthesized multimetallic nanopatterns composed of up to five metal elements (Co, Pd, Pt, Ag and Ni), and obtained insights on elemental uniformity control at the nanoscale. This method provides an alternative pathway to construct a library of multimetallic nanopatterns.

Suggested Citation

  • Mo Xie & Weina Fang & Zhibei Qu & Yang Hu & Yichi Zhang & Jie Chao & Jiye Shi & Lihua Wang & Lianhui Wang & Yang Tian & Chunhai Fan & Huajie Liu, 2023. "High-entropy alloy nanopatterns by prescribed metallization of DNA origami templates," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-37333-y
    DOI: 10.1038/s41467-023-37333-y
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    References listed on IDEAS

    as
    1. Takamasa Tsukamoto & Tetsuya Kambe & Aiko Nakao & Takane Imaoka & Kimihisa Yamamoto, 2018. "Atom-hybridization for synthesis of polymetallic clusters," Nature Communications, Nature, vol. 9(1), pages 1-7, December.
    2. Xiaoguo Liu & Fei Zhang & Xinxin Jing & Muchen Pan & Pi Liu & Wei Li & Bowen Zhu & Jiang Li & Hong Chen & Lihua Wang & Jianping Lin & Yan Liu & Dongyuan Zhao & Hao Yan & Chunhai Fan, 2018. "Complex silica composite nanomaterials templated with DNA origami," Nature, Nature, vol. 559(7715), pages 593-598, July.
    3. Q. F. He & J. G. Wang & H. A. Chen & Z. Y. Ding & Z. Q. Zhou & L. H. Xiong & J. H. Luan & J. M. Pelletier & J. C. Qiao & Q. Wang & L. L. Fan & Y. Ren & Q. S. Zeng & C. T. Liu & C. W. Pao & D. J. Srolo, 2022. "A highly distorted ultraelastic chemically complex Elinvar alloy," Nature, Nature, vol. 602(7896), pages 251-257, February.
    4. Sisi Jia & Jianbang Wang & Mo Xie & Jixue Sun & Huajie Liu & Yinan Zhang & Jie Chao & Jiang Li & Lihua Wang & Jianping Lin & Kurt V. Gothelf & Chunhai Fan, 2019. "Programming DNA origami patterning with non-canonical DNA-based metallization reactions," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    5. Q. F. He & J. G. Wang & H. A. Chen & Z. Y. Ding & Z. Q. Zhou & L. H. Xiong & J. H. Luan & J. M. Pelletier & J. C. Qiao & Q. Wang & L. L. Fan & Y. Ren & Q. S. Zeng & C. T. Liu & C. W. Pao & D. J. Srolo, 2022. "Author Correction: A highly distorted ultraelastic chemically complex Elinvar alloy," Nature, Nature, vol. 603(7903), pages 32-32, March.
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