Restructuring the Interface of Silk-Polycaprolactone Biocomposites Using Rigid-Flexible Agents

Yan Zhao; Zihong Wu; Lei Chen; Xiong Shu; Juan Guan; Kang Yang; Ruya Shi; Yibin Li; Keiji Numata; Zhengzhong Shao

doi:10.1021/acs.biomac.2c01162

Restructuring the Interface of Silk-Polycaprolactone Biocomposites Using Rigid-Flexible Agents

Yan Zhao
, Zihong Wu
, Lei Chen
, Xiong Shu^*
, Juan Guan^*
, Kang Yang
, Ruya Shi
, Yibin Li^*
, Keiji Numata
, Zhengzhong Shao

^*此作品的通讯作者

材料科学与工程学院

Beihang University
Capital Medical University
Anhui University of Technology
RIKEN
Kyoto University
Fudan University

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

Natural fiber-reinforced biocomposites with excellent mechanical and biological properties have attractive prospects for internal medical devices. However, poor interfacial adhesion between natural silk fiber and the polymer matrix has been a disturbing issue for such applications. Herein, rigid-flexible agents, such as polydopamine (PDA) and epoxy soybean oil (ESO), were introduced to enhance the interfacial adhesion between Antheraea pernyi (Ap) silk and a common medical polymer, polycaprolactone (PCL). We compared two strategies of depositing PDA first (Ap-PDA-ESO) and grafting ESO first (Ap-ESO-PDA). The rigid-flexible interfacial agents introduced multiple molecular interactions at the silk-PCL interface. The “Ap-PDA-ESO” strategy exhibited a greater enhancement in interfacial adhesion, and interfacial toughening mechanisms were proposed. This work sheds light on engineering strong and tough silk fiber-based biocomposites for biomedical applications.

源语言	英语
页（从-至）	332-343
页数	12
期刊	Biomacromolecules
卷	24
期	1
DOI	https://doi.org/10.1021/acs.biomac.2c01162
出版状态	已出版 - 9 1月 2023

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10.1021/acs.biomac.2c01162

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title = "Restructuring the Interface of Silk-Polycaprolactone Biocomposites Using Rigid-Flexible Agents",

abstract = "Natural fiber-reinforced biocomposites with excellent mechanical and biological properties have attractive prospects for internal medical devices. However, poor interfacial adhesion between natural silk fiber and the polymer matrix has been a disturbing issue for such applications. Herein, rigid-flexible agents, such as polydopamine (PDA) and epoxy soybean oil (ESO), were introduced to enhance the interfacial adhesion between Antheraea pernyi (Ap) silk and a common medical polymer, polycaprolactone (PCL). We compared two strategies of depositing PDA first (Ap-PDA-ESO) and grafting ESO first (Ap-ESO-PDA). The rigid-flexible interfacial agents introduced multiple molecular interactions at the silk-PCL interface. The “Ap-PDA-ESO” strategy exhibited a greater enhancement in interfacial adhesion, and interfacial toughening mechanisms were proposed. This work sheds light on engineering strong and tough silk fiber-based biocomposites for biomedical applications.",

author = "Yan Zhao and Zihong Wu and Lei Chen and Xiong Shu and Juan Guan and Kang Yang and Ruya Shi and Yibin Li and Keiji Numata and Zhengzhong Shao",

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T1 - Restructuring the Interface of Silk-Polycaprolactone Biocomposites Using Rigid-Flexible Agents

AU - Zhao, Yan

AU - Wu, Zihong

AU - Chen, Lei

AU - Shu, Xiong

AU - Guan, Juan

AU - Yang, Kang

AU - Shi, Ruya

AU - Li, Yibin

AU - Numata, Keiji

AU - Shao, Zhengzhong

PY - 2023/1/9

Y1 - 2023/1/9

N2 - Natural fiber-reinforced biocomposites with excellent mechanical and biological properties have attractive prospects for internal medical devices. However, poor interfacial adhesion between natural silk fiber and the polymer matrix has been a disturbing issue for such applications. Herein, rigid-flexible agents, such as polydopamine (PDA) and epoxy soybean oil (ESO), were introduced to enhance the interfacial adhesion between Antheraea pernyi (Ap) silk and a common medical polymer, polycaprolactone (PCL). We compared two strategies of depositing PDA first (Ap-PDA-ESO) and grafting ESO first (Ap-ESO-PDA). The rigid-flexible interfacial agents introduced multiple molecular interactions at the silk-PCL interface. The “Ap-PDA-ESO” strategy exhibited a greater enhancement in interfacial adhesion, and interfacial toughening mechanisms were proposed. This work sheds light on engineering strong and tough silk fiber-based biocomposites for biomedical applications.

AB - Natural fiber-reinforced biocomposites with excellent mechanical and biological properties have attractive prospects for internal medical devices. However, poor interfacial adhesion between natural silk fiber and the polymer matrix has been a disturbing issue for such applications. Herein, rigid-flexible agents, such as polydopamine (PDA) and epoxy soybean oil (ESO), were introduced to enhance the interfacial adhesion between Antheraea pernyi (Ap) silk and a common medical polymer, polycaprolactone (PCL). We compared two strategies of depositing PDA first (Ap-PDA-ESO) and grafting ESO first (Ap-ESO-PDA). The rigid-flexible interfacial agents introduced multiple molecular interactions at the silk-PCL interface. The “Ap-PDA-ESO” strategy exhibited a greater enhancement in interfacial adhesion, and interfacial toughening mechanisms were proposed. This work sheds light on engineering strong and tough silk fiber-based biocomposites for biomedical applications.

UR - https://www.scopus.com/pages/publications/85144763389

U2 - 10.1021/acs.biomac.2c01162

DO - 10.1021/acs.biomac.2c01162

M3 - 文章

C2 - 36562543

AN - SCOPUS:85144763389

SN - 1525-7797

VL - 24

SP - 332

EP - 343

JO - Biomacromolecules

JF - Biomacromolecules

IS - 1

ER -

Restructuring the Interface of Silk-Polycaprolactone Biocomposites Using Rigid-Flexible Agents

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