Highly Extensible Bio-Nanocomposite Fibers

Akhilesh K. Gaharwar; Patrick J. Schexnailder; Avinash Dundigalla; James D. White; Cristina R. Matos-Pérez; Joshua L. Cloud; Soenke Seifert; Jonathan J. Wilker; Gudrun Schmidt

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Highly Extensible Bio-Nanocomposite Fibers

机译：高度可扩展的生物纳米复合纤维

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Here, we show that a poly(ethylene oxide) polymer can be physically cross-linked with silicate nanoparticles (Laponite) to yield highly extensible, bio-nanocomposite fibers that, upon pulling, stretch to extreme lengths and crystallize polymer chains. We find that both, nanometer structures and mechanical properties of the fibers respond to mechanical deformation by exhibiting strain-induced crystallization and high elongation. We explore the structural characteristics using X-ray scattering and the mechanical properties of the dried fibers made from hydrogels in order to determine feasibility for eventual biomedical use and to map out directions for further materials development.

机译：在这里，我们表明，聚（环氧乙烷）聚合物可以与硅酸盐纳米颗粒（Laponite）物理交联，以产生高度可扩展的生物纳米复合纤维，该纤维在拉动时会拉伸至极长的长度并使聚合物链结晶。我们发现，纤维的纳米结构和机械性能都通过表现出应变诱导的结晶和高伸长率来响应机械变形。我们探索使用X射线散射的结构特征以及由水凝胶制成的干燥纤维的机械性能，以确定最终生物医学用途的可行性并为进一步的材料开发制定方向。

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来源
《Macromolecular Rapid Communications 》 |2011年第1期| p.50-57| 共8页
作者
Akhilesh K. Gaharwar; Patrick J. Schexnailder; Avinash Dundigalla; James D. White; Cristina R. Matos-Pérez; Joshua L. Cloud; Soenke Seifert; Jonathan J. Wilker; Gudrun Schmidt;
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作者单位

Weldon School of Biomedical Engineering, Purdue University, West Lafayette, Indiana 47907, USA;

Weldon School of Biomedical Engineering, Purdue University, West Lafayette, Indiana 47907, USA;

Department of Chemistry, Louisiana State University, Baton Rouge, Louisiana 70803, USA;

Department of Chemistry, Purdue University, West Lafayette, Indiana 47907, USA;

Department of Chemistry, Purdue University, West Lafayette, Indiana 47907, USA;

Department of Chemistry, Purdue University, West Lafayette, Indiana 47907, USA;

Chemistry Division, Argonne National Laboratory, Argonne, Illinois 60439, USA;

Department of Chemistry, Purdue University, West Lafayette, Indiana 47907, USA;

Weldon School of Biomedical Engineering, Purdue University, West Lafayette, Indiana 47907, USA;

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原文格式 PDF
正文语种 eng
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关键词
bio-nanocomposites; fibers; mechanical properties; poly(ethylene oxide); silicates;

机译：生物纳米复合材料;纤维;机械性能;聚环氧乙烷;硅酸盐;

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专利

1. Highly extensible bio-nanocomposite fibers [J] . Gaharwar A.K., Schexnailder P.J., Dundigalla A., Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation . 2011 ,第1期

机译：高度可扩展的生物纳米复合纤维
2. Highly Extensible Bio-Nanocomposite Films with Direction-Dependent Properties [J] . Akhilesh K. Gaharwar, Patrick Schexnailder, Vikas Kaul, Advanced Functional Materials . 2010 ,第3期

机译：具有方向相关特性的高度可扩展的生物纳米复合薄膜
3. Novel bio-nanocomposite hybrids made from polylactide/nanoclay nanocomposites and short flax fibers [J] . Mihai Mihaela, Minh-Tan Ton-That Journal of Thermoplastic Composite Materials . 2019 ,第1期

机译：新型生物纳米复合杂交物由聚酰胺/纳米粘土纳米复合材料和短亚麻纤维制成
4. New Bio-Nanocomposite Fibers from PEO and Silicate Cross-Linkers [C] . Akhilesh K. Gaharwar, Patrick Schexnailder, James White PMSE Symposia . 2008

机译：来自PEO和硅酸盐交联剂的新生物纳米复合纤维
5. Development of "core-suction" technique for fabrication of highly doped fibers for optical amplification and characterization of optical fibers for Raman amplification. [D] . Goel, Nitin Kumar. 2005

机译：开发“芯吸”技术以制造用于光放大的高掺杂光纤以及表征用于拉曼放大的光纤。
6. Evidence that αC Region Is Origin of Low Modulus High Extensibility and Strain Stiffening in Fibrin Fibers [O] . John R. Houser, Nathan E. Hudson, Lifang Ping, 2010

机译：αC区是纤维蛋白纤维的低模量高延伸性和应变刚度的起源的证据
7. Fabrication of Bio-Nanocomposite Nanofibers Mimicking the Mineralized Hard Tissues via Electrospinning Process [O] . Gyeong-Man Kim 2010

机译：通过静电纺丝工艺制备生物纳米复合纳米纤维模拟矿化硬组织的纳米纤维

Highly Extensible Bio-Nanocomposite Fibers

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