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SCIENCE CHINA Chemistry, Volume 61, Issue 8: 971-972(2018) https://doi.org/10.1007/s11426-018-9251-6

Rubbery neat carbon aerogels

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  • ReceivedMar 23, 2018
  • AcceptedMar 26, 2018
  • PublishedMay 24, 2018

Abstract

There is no abstract available for this article.


Interest statement

The author declares no conflict of interest.


References

[1] Zhang T, Chang H, Wu Y, Xiao P, Yi N, Lu Y, Ma Y, Huang Y, Zhao K, Yan XQ, Liu ZB, Tian JG, Chen Y. Nat Photon, 2015, 9: 471-476 CrossRef ADS arXiv Google Scholar

[2] Guo F, Jiang Y, Xu Z, Xiao Y, Fang B, Liu Y, Gao W, Zhao P, Wang H, Gao C. Nat Commun, 2018, 9: 881 CrossRef PubMed Google Scholar

[3] Stafford CM, Harrison C, Beers KL, Karim A, Amis EJ, VanLandingham MR, Kim HC, Volksen W, Miller RD, Simonyi EE. Nat Mater, 2004, 3: 545-550 CrossRef PubMed ADS Google Scholar

  • Figure 1

    (a) A digital photograph of ultralight rubbery carbon aerogel with density of 5.7 mg/cm3 floating on a flower. (b) Cyclical tensile-release curves for a designed carbon aerogel with stretchable ratio of 200%. (c) Storage modulus (red), loss modulus (blue), and damping ratio (yellow) as function of temperature [2] (color online).

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