Cu+-containing physically crosslinked chitosan hydrogels with shape memory

Z. Y. Yu; Y. Li; Z. P. Feng; Z. H. Zhang; P. Li; Y. Chen; S. S. Chen; P. W. Li; Z. M. Yang

doi:10.3144/expresspolymlett.2019.67

eXPRESS Polymer Letters (Sep 2019)

Cu+-containing physically crosslinked chitosan hydrogels with shape memory

Z. Y. Yu,
Y. Li,
Z. P. Feng,
Z. H. Zhang,
P. Li,
Y. Chen,
S. S. Chen,
P. W. Li,
Z. M. Yang

Affiliations

Z. Y. Yu
Y. Li
Z. P. Feng
Z. H. Zhang
P. Li
Y. Chen
S. S. Chen
P. W. Li
Z. M. Yang

DOI: https://doi.org/10.3144/expresspolymlett.2019.67
Journal volume & issue: Vol. 13, no. 9
pp. 785 – 793

Abstract

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Physically crosslinked chitosan hydrogels have better biocompatibility and possess unique functional characteristics but suffer from poor mechanical properties. In the current study, we prepared Cu+-containing physically crosslinked chitosan hydrogels by exploiting ammonia fumigation and reduction of Cu2+ by NaHSO3. The content of Cu+ in the prepared hydrogels was in a low range of 4.88–29.27 μmol/g. The mechanical strength of the CTS-Cu+/NH3 hydrogels was remarkably improved up to 0.25 MPa and the elongation at break increased with rising content of Cu+ due to the dynamic crosslinks between chitosan and Cu+. Moreover, the CTS-Cu+/NH3 hydrogels demonstrated evident shape memory after exposure to air by exploiting the different coordination number of Cu2+ and Cu+. Thus, the prepared hydrogels may have good potential applications as biomedical materials.

Published in eXPRESS Polymer Letters

ISSN: 1788-618X (Online)
Publisher: Budapest University of Technology
Country of publisher: Hungary
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology
Website: http://www.expresspolymlett.com/

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