Compatibility Evaluation of Non-Woven Sheet Composite of Silk Fibroin and Polyurethane in the Wet State

被引：17

作者：

Aytemiz, Derya ^{[1
]}

Fukuda, Yasuhiro ^{[1
]}

Higuchi, Akira ^{[1
]}

Asano, Atsushi ^{[2
]}

Nakazawa, Chikako T. ^{[2
]}

Kameda, Tsunenori ^{[3
]}

Yoshioka, Taiyo ^{[3
]}

Nakazawa, Yasumoto ^{[1
]}

机构：

[1] Tokyo Univ Agr & Technol, Dept Biotechnol & Life Sci, 2-24-16 Naka Cho, Koganei, Tokyo 1848588, Japan

[2] Natl Def Acad, Dept Appl Chem, 1-10-20 Hashirimizu, Yokosuka, Kanagawa 2398686, Japan

[3] Natl Agr & Food Res Org, Inst Agrobiol Sci, Silk Mat Res Unit, Tsukuba, Ibaraki 3058634, Japan

来源：

POLYMERS | 2018年 / 10卷 / 08期

关键词：

silk fibroin; solid-state NMR; electrospinning; polyurethane; MECHANICAL-PROPERTIES; SMALL-DIAMETER; BLENDS; CELLS; WATER; NMR;

D O I：

10.3390/polym10080874

中图分类号：

O63 [高分子化学（高聚物）];

学科分类号：

070305 ; 080501 ; 081704 ;

摘要：

SF/polyurethane composite non-woven sheet was fabricated to evaluate the cardiovascular tissue engineering materials in the wet state. The compatibility and microstructure analyses were carried out on the fabricated SF/polyurethane composite non-woven sheet by thermal analysis and solid-state NMR analysis in the wet state. To evaluate the modulus of elasticity, a tensile test was performed and supported with dynamic viscoelasticity and mechanical analysis. Results showed that SF/polyurethane composites form domains within the non-woven sheet and are in a finely dispersed state while maintaining their structures at a scale of several tens of nm. Moreover, an increase of the loss tangent with low elastic modulus proved that a micromolecular interaction occurs between silk fibroin (SF) and polyurethane molecules.

引用

页数：12

共 50 条

[1] Compatibility evaluation of non-woven composite sheet based on silk fibroin and synthetic polymers for tissue engineered material
Nakazawa, Yasumoto
Numata, Kaori
Tajiri, Hirokazu
Hattori, Natsui
Aytemiz, Derya
Asano, Atsushi
Nakazawa, Chikako
[J]. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2018, 255
[2] Solid-state NMR studies for the development of non-woven biomaterials based on silk fibroin and polyurethane
Nakazawa, Chikako T.
Higuchi, Akira
Asano, Atsushi
Kameda, Tsunenori
Aytemiz, Derya
Nakazawa, Yasumoto
[J]. POLYMER JOURNAL, 2017, 49 (07) : 583 - 586
[3] Solid-state NMR studies for the development of non-woven biomaterials based on silk fibroin and polyurethane
Chikako T Nakazawa
Akira Higuchi
Atsushi Asano
Tsunenori Kameda
Derya Aytemiz
Yasumoto Nakazawa
[J]. Polymer Journal, 2017, 49 : 583 - 586
[4] Preparation of non-woven mats from regenerated silk fibroin aqueous solutions with electrospinning method
Zhu Jing-Xin
Shao Hui-Li
Hu Xue-Chao
[J]. 2007 INTERNATIONAL FORUM ON BIOMEDICAL TEXTILE MATERIALS, PROCEEDINGS, 2007, : 182 - 187
[5] Growth of human cells on a non-woven silk fibroin net: a potential for use in tissue engineering
Unger, RE
Wolf, M
Peters, K
Motta, A
Migliaresi, C
Kirkpatrick, CJ
[J]. BIOMATERIALS, 2004, 25 (06) : 1069 - 1075
[6] Preparation of non-woven mats from all-aqueous silk fibroin solution with electrospinning method
Chen Chen
Cao Chuanbao
Ma Xilan
Tang Yin
Zhu Hesun
[J]. POLYMER, 2006, 47 (18) : 6322 - 6327
[7] DEVELOPMENT OF WET PRODUCTION OF NON-WOVEN MATERIAL
SCHMIDT, S
[J]. ZELLSTOFF UND PAPIER, 1972, 21 (09): : 280 - &
[8] PREPARATION OF COMPOSITE MEMBRANES BY DEPOSITION OF POLYETHERSULFONE ONTO THE GLASS NON-WOVEN SHEET
Laninovic, Verica
[J]. JOURNAL OF POLYMER ENGINEERING, 2008, 28 (6-7) : 405 - 419
[9] ON MANUFACTURE OF NON-WOVEN FIBROUS SHEET PRODUCTS
OPDERBEC.F
GRAFF, P
[J]. PAPIER, 1968, 22 (10A): : 679 - &
[10] Preparation and characterization of Antheraea assama silk fibroin based novel non-woven scaffold for tissue engineering applications
Kasoju, Naresh
Bhonde, Ramesh R.
Bora, Utpal
[J]. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 2009, 3 (07) : 539 - 552

← 1 2 3 4 5 →