Glutathione as the End Capper for Cyclodextrin/PEG Polyrotaxanes

注册 English

Glutathione as the End Capper for Cyclodextrin/PEG Polyrotaxanes

Qiao Song , Zhi Luo , Xinming Tong , Yi Du , Yanbin Huang

Citation: Qiao Song, Zhi Luo, Xinming Tong, Yi Du, Yanbin Huang. Glutathione as the End Capper for Cyclodextrin/PEG Polyrotaxanes[J]. Chinese Journal of Polymer Science, 2014, 32(8): 1003-1009. doi: 10.1007/s10118-014-1477-y shu

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Glutathione as the End Capper for Cyclodextrin/PEG Polyrotaxanes

1.
Department of Chemical Engineering, Tsinghua University, Beijing 100084, China
基金项目:
This work was financially supported by the National Natural Science Foundation of China (No. 21004038)

摘要: A facile one-pot synthesis of a-cyclodextrin-based polyrotaxane (PR) in aqueous solution is reported, where the peptide glutathione was used as the end-capping agent and the thiol-ene Michael addition was used as the end-capping reaction. Both polyrotaxanes with low threading ratio and high threading ratio were successfully obtained. In contrast to the conventionally used multiple-step synthesis methods and hydrophobic end cappers, this one-pot aqueous synthesis as well as the biocompatibility of the end-capping agent could result in a much more biocompatible PR to be used as biomaterials.

关键词:

English

Glutathione as the End Capper for Cyclodextrin/PEG Polyrotaxanes

1.
Department of Chemical Engineering, Tsinghua University, Beijing 100084, China
Received Date: 13 November 2013
Revised Date: 11 January 2014
Available Online: 05 August 2014
Fund Project:
This work was financially supported by the National Natural Science Foundation of China (No. 21004038)

Abstract: A facile one-pot synthesis of a-cyclodextrin-based polyrotaxane (PR) in aqueous solution is reported, where the peptide glutathione was used as the end-capping agent and the thiol-ene Michael addition was used as the end-capping reaction. Both polyrotaxanes with low threading ratio and high threading ratio were successfully obtained. In contrast to the conventionally used multiple-step synthesis methods and hydrophobic end cappers, this one-pot aqueous synthesis as well as the biocompatibility of the end-capping agent could result in a much more biocompatible PR to be used as biomaterials.

Key words:

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