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Recent progress and perspectives of space electric propulsion systems based on smart nanomaterials

Author

Listed:
  • I. Levchenko

    (Nanyang Technological University
    Queensland University of Technology (QUT))

  • S. Xu

    (Nanyang Technological University)

  • G. Teel

    (The George Washington University)

  • D. Mariotti

    (Ulster University)

  • M. L. R. Walker

    (Georgia Institute of Technology)

  • M. Keidar

    (The George Washington University)

Abstract

Drastic miniaturization of electronics and ingression of next-generation nanomaterials into space technology have provoked a renaissance in interplanetary flights and near-Earth space exploration using small unmanned satellites and systems. As the next stage, the NASA’s 2015 Nanotechnology Roadmap initiative called for new design paradigms that integrate nanotechnology and conceptually new materials to build advanced, deep-space-capable, adaptive spacecraft. This review examines the cutting edge and discusses the opportunities for integration of nanomaterials into the most advanced types of electric propulsion devices that take advantage of their unique features and boost their efficiency and service life. Finally, we propose a concept of an adaptive thruster.

Suggested Citation

  • I. Levchenko & S. Xu & G. Teel & D. Mariotti & M. L. R. Walker & M. Keidar, 2018. "Recent progress and perspectives of space electric propulsion systems based on smart nanomaterials," Nature Communications, Nature, vol. 9(1), pages 1-19, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02269-7
    DOI: 10.1038/s41467-017-02269-7
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    Cited by:

    1. Jiaxuan Zheng & Siyi An & Yongjun Jian, 2021. "Steric Effects on Electroosmotic Nano-Thrusters under High Zeta Potentials," Mathematics, MDPI, vol. 9(24), pages 1-16, December.
    2. Tamilselvi, R. & Lekshmi, G.S. & Padmanathan, N. & Selvaraj, V. & Bazaka, O. & Levchenko, I. & Bazaka, K. & Mandhakini, M., 2022. "NiFe2O4 / rGO nanocomposites produced by soft bubble assembly for energy storage and environmental remediation," Renewable Energy, Elsevier, vol. 181(C), pages 1386-1401.
    3. Dongyang Xiao & Huanhuan Du & Leimeng Sun & Xiaochen Suo & Yurong Wang & Yili Zhang & Shaolin Zhang & Shuangyang Kuang & Fangjing Hu & Liangcheng Tu & Daren Yu & Peiyi Song, 2024. "Boosting the electron beam transmittance of field emission cathode using a self-charging gate," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    4. Tamilselvi, R. & Ramesh, M. & Lekshmi, G.S. & Bazaka, Olha & Levchenko, Igor & Bazaka, Kateryna & Mandhakini, M., 2020. "Graphene oxide – Based supercapacitors from agricultural wastes: A step to mass production of highly efficient electrodes for electrical transportation systems," Renewable Energy, Elsevier, vol. 151(C), pages 731-739.
    5. Duan, Buren & Zhang, Haonan & Hua, Zuohao & Wu, Lizhi & Bao, Zijing & Guo, Ning & Ye, Yinghua & Shen, Ruiqi, 2022. "Burning characteristics and combustion wave model of AP/AN-based laser-controlled solid propellant," Energy, Elsevier, vol. 253(C).

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