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Molecular transport through capillaries made with atomic-scale precision

Author

Listed:
  • B. Radha

    (School of Physics and Astronomy, University of Manchester)

  • A. Esfandiar

    (School of Physics and Astronomy, University of Manchester)

  • F. C. Wang

    (Chinese Academy of Sciences Key Laboratory of Mechanical Behavior and Design of Materials, University of Science and Technology of China)

  • A. P. Rooney

    (School of Materials, University of Manchester)

  • K. Gopinadhan

    (School of Physics and Astronomy, University of Manchester)

  • A. Keerthi

    (School of Physics and Astronomy, University of Manchester)

  • A. Mishchenko

    (School of Physics and Astronomy, University of Manchester)

  • A. Janardanan

    (School of Physics and Astronomy, University of Manchester)

  • P. Blake

    (National Graphene Institute, University of Manchester, Booth Street East)

  • L. Fumagalli

    (School of Physics and Astronomy, University of Manchester
    National Graphene Institute, University of Manchester, Booth Street East)

  • M. Lozada-Hidalgo

    (School of Physics and Astronomy, University of Manchester)

  • S. Garaj

    (National University of Singapore)

  • S. J. Haigh

    (School of Materials, University of Manchester)

  • I. V. Grigorieva

    (School of Physics and Astronomy, University of Manchester)

  • H. A. Wu

    (Chinese Academy of Sciences Key Laboratory of Mechanical Behavior and Design of Materials, University of Science and Technology of China)

  • A. K. Geim

    (School of Physics and Astronomy, University of Manchester)

Abstract

Nanometre-scale graphitic capillaries with atomically flat walls are engineered and studied, revealing unexpectedly fast transport of liquid water through channels that accommodate only a few layers of water.

Suggested Citation

  • B. Radha & A. Esfandiar & F. C. Wang & A. P. Rooney & K. Gopinadhan & A. Keerthi & A. Mishchenko & A. Janardanan & P. Blake & L. Fumagalli & M. Lozada-Hidalgo & S. Garaj & S. J. Haigh & I. V. Grigorie, 2016. "Molecular transport through capillaries made with atomic-scale precision," Nature, Nature, vol. 538(7624), pages 222-225, October.
    • Handle: RePEc:nat:nature:v:538:y:2016:i:7624:d:10.1038_nature19363
    DOI: 10.1038/nature19363
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    Cited by:

    1. Bo Lin & Jian Jiang & Xiao Cheng Zeng & Lei Li, 2023. "Temperature-pressure phase diagram of confined monolayer water/ice at first-principles accuracy with a machine-learning force field," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Weiming Wang & Qingguo Liu & Yingnan Liu & Rigong Zhang & Tian Cheng & Youguo Yan & Qianze Hu & Tingting Li, 2023. "Research Status, Existing Problems, and the Prospect of New Methods of Determining the Lower Limit of the Physical Properties of Tight Sandstone Reservoirs," Energies, MDPI, vol. 16(15), pages 1-19, July.
    3. Zhipeng Wang & Liqin Huang & Xue Dong & Tong Wu & Qi Qing & Jing Chen & Yuexiang Lu & Chao Xu, 2023. "Ion sieving in graphene oxide membrane enables efficient actinides/lanthanides separation," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    4. Nathan Ronceray & Massimo Spina & Vanessa Hui Yin Chou & Chwee Teck Lim & Andre K. Geim & Slaven Garaj, 2024. "Elastocapillarity-driven 2D nano-switches enable zeptoliter-scale liquid encapsulation," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    5. Ng, Ving Onn & Hong, XiangYu & Yu, Hao & Wu, HengAn & Hung, Yew Mun, 2022. "Anomalously enhanced thermal performance of micro heat pipes coated with heterogeneous superwettable graphene nanostructures," Applied Energy, Elsevier, vol. 326(C).
    6. Kuichang Zuo & Xiang Zhang & Xiaochuan Huang & Eliezer F. Oliveira & Hua Guo & Tianshu Zhai & Weipeng Wang & Pedro J. J. Alvarez & Menachem Elimelech & Pulickel M. Ajayan & Jun Lou & Qilin Li, 2022. "Ultrahigh resistance of hexagonal boron nitride to mineral scale formation," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    7. Zhangcai Zhang & Lixin Liang & Jianze Feng & Guangjin Hou & Wencai Ren, 2024. "Significant enhancement of proton conductivity in solid acid at the monolayer limit," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    8. Peifu Cheng & Francesco Fornasiero & Melinda L. Jue & Wonhee Ko & An-Ping Li & Juan Carlos Idrobo & Michael S. H. Boutilier & Piran R. Kidambi, 2022. "Differences in water and vapor transport through angstrom-scale pores in atomically thin membranes," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    9. Cheng Chi & Gongze Liu & Meng An & Yufeng Zhang & Dongxing Song & Xin Qi & Chunyu Zhao & Zequn Wang & Yanzheng Du & Zizhen Lin & Yang Lu & He Huang & Yang Li & Chongjia Lin & Weigang Ma & Baoling Huan, 2023. "Reversible bipolar thermopower of ionic thermoelectric polymer composite for cyclic energy generation," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    10. Jincheng Tong & Nathan Bruyn & Adriana Alieva & Elizabeth. J. Legge & Matthew Boyes & Xiuju Song & Alvin J. Walisinghe & Andrew J. Pollard & Michael W. Anderson & Thomas Vetter & Manuel Melle-Franco &, 2024. "Crystallization of molecular layers produced under confinement onto a surface," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    11. Nawapong Unsuree & Sorasak Phanphak & Pongthep Prajongtat & Aritsa Bunpheng & Kulpavee Jitapunkul & Pornpis Kongputhon & Pannaree Srinoi & Pawin Iamprasertkun & Wisit Hirunpinyopas, 2021. "A Review: Ion Transport of Two-Dimensional Materials in Novel Technologies from Macro to Nanoscopic Perspectives," Energies, MDPI, vol. 14(18), pages 1-38, September.
    12. Qian Zhang & Bo Gao & Ling Zhang & Xiaopeng Liu & Jixiang Cui & Yijun Cao & Hongbo Zeng & Qun Xu & Xinwei Cui & Lei Jiang, 2023. "Anomalous water molecular gating from atomic-scale graphene capillaries for precise and ultrafast molecular sieving," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    13. Xinyue Wen & Tobias Foller & Xiaoheng Jin & Tiziana Musso & Priyank Kumar & Rakesh Joshi, 2022. "Understanding water transport through graphene-based nanochannels via experimental control of slip length," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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