Asset Details

  • Description:
  • a Printing performance as a function of varying the alginate ink and the viscosity of pre-polymers. b, c The effect of feeding rate of the alginate bioink and needle moving speed on the diameter of printed templates and formed microchannels. d The effect of the concentration of sodium citrate on the liquefying time of Ca-Alg templates. e The effect of the thickness of support matrix on the liquefying time of Ca-Alg templates. f The effect of liquefying time on the mechanical stability of the support hydrogels
  • License:
  • Rights Managed
  • Rights Holder:
  • Springer Nature
  • License Rights Holder:
  • © Springer Science+Business Media, LLC, part of Springer Nature 2019
  • Asset Type:
  • Image
  • Asset Subtype:
  • Chart/Graph
  • Image Orientation:
  • Landscape
  • Image Dimensions:
  • 2032 x 1126
  • Image File Size:
  • 285 KB
  • Creator:
  • Yongkang Wang, Xiaobo Huang, Yi Shen, Ruiqiang Hang, Xiangyu Zhang, Yueyue Wang, Xiaohong Yao, Bin Tang
  • Credit:
  • Wang, Y., Huang, X., Shen, Y., Hang, R., Zhang, X., Wang, Y., Yao, X., & Tang, B. (2019). Direct writing alginate bioink inside pre-polymers of hydrogels to create patterned vascular networks. Journal of Materials Science, 54(10), 7883-7892. https://doi.org/10.1007/s10853-019-03447-2.
  • Collection:
  • Keywords:
  • Restrictions:
  • Property Release:
  • No
  • Model Release:
  • No
  • Purchasable:
  • Yes
  • Sensitive Materials:
  • No
  • Article Authors:
  • Yongkang Wang, Xiaobo Huang, Yi Shen, Ruiqiang Hang, Xiangyu Zhang, Yueyue Wang, Xiaohong Yao, Bin Tang
  • Article Copyright Year:
  • 2019
  • Publication Volume:
  • 54
  • Publication Issue:
  • 10
  • Publication Date:
  • 02/20/2019
  • DOI:
  • https://doi.org/10.1007/s10853-019-03447-2

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