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

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

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

13 引用（Scopus）

摘要

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.

源语言	英语
页（从-至）	785-793
页数	9
期刊	Express Polymer Letters
卷	13
期	9
DOI	https://doi.org/10.3144/expresspolymlett.2019.67
出版状态	已出版 - 9月 2019

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10.3144/expresspolymlett.2019.67

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@article{6bc4dc51d29041248713a47ad34c8204,

title = "Cu+-containing physically crosslinked chitosan hydrogels with shape memory",

abstract = "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.",

keywords = "Ammonia fumigation, Cu, Polymer gels, Reduction, Shape memory",

author = "Yu, {Z. Y.} and Y. Li and Feng, {Z. P.} and Zhang, {Z. H.} and P. Li and Y. Chen and Chen, {S. S.} and Li, {P. W.} and Yang, {Z. M.}",

note = "Publisher Copyright: {\textcopyright} BME-PT.",

year = "2019",

month = sep,

doi = "10.3144/expresspolymlett.2019.67",

language = "English",

volume = "13",

pages = "785--793",

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TY - JOUR

T1 - Cu+-containing physically crosslinked chitosan hydrogels with shape memory

AU - Yu, Z. Y.

AU - Li, Y.

AU - Feng, Z. P.

AU - Zhang, Z. H.

AU - Li, P.

AU - Chen, Y.

AU - Chen, S. S.

AU - Li, P. W.

AU - Yang, Z. M.

N1 - Publisher Copyright: © BME-PT.

PY - 2019/9

Y1 - 2019/9

N2 - 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.

AB - 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.

KW - Ammonia fumigation

KW - Cu

KW - Polymer gels

KW - Reduction

KW - Shape memory

UR - http://www.scopus.com/inward/record.url?scp=85069446448&partnerID=8YFLogxK

U2 - 10.3144/expresspolymlett.2019.67

DO - 10.3144/expresspolymlett.2019.67

M3 - Article

AN - SCOPUS:85069446448

SN - 1788-618X

VL - 13

SP - 785

EP - 793

JO - Express Polymer Letters

JF - Express Polymer Letters

IS - 9

ER -

Cu+-containing physically crosslinked chitosan hydrogels with shape memory

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Cu⁺-containing physically crosslinked chitosan hydrogels with shape memory