Pristine spider silk fibers as waveguiding microstructure in free space and in an integrated photonic chip

机译：原始蜘蛛丝纤维在自由空间和集成光子芯片中作为波导微结构

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Silk fibers produced by nature are among the most interesting materials. Besides their high degree of biocompatibility, they are bioresorbable, ecologically friendly, and offer excellent mechanical properties. In particular, silks of spider and worm have aroused a huge interest as seen by the large literature on their structural organization [1,2]. Thanks to material engineering possibility [3,4], regenerated worm silk has been intensively studied and used in different fields such as electronics and photonics [5,6]. On the other hand, native silks fibers are utilized in textile applications and in surgery procedures but have not yet deserved attention for photonic applications. However, the exceptional mechanical properties of natural silk mainly originate from an elaborated hierarchical organization which has not yet been reproduced in regenerated silk.

机译：大自然产生的丝纤维是最有趣的材料之一。除了具有高度的生物相容性外，它们还具有生物可吸收性，生态友好性以及出色的机械性能。尤其是，蜘蛛和蠕虫的丝引起了人们的极大兴趣，正如有关其结构组织的大量文献所看到的[1,2]。由于材料工程学的可能性[3,4]，对再生蠕虫丝进行了深入研究，并将其用于电子和光子学等不同领域[5,6]。另一方面，天然蚕丝纤维被用于纺织应用和外科手术程序中，但尚未在光子应用中引起关注。但是，天然蚕丝的卓越机械性能主要源自尚未在再生蚕丝中复制的精细的层次结构。

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《2013 Conference on Lasers and Electro-Optics Europe & Internationaluantum Electronics Conference》|2013年|1|共1页
会议地点 Munich(DE)
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Huby, N.; Renault, A.; Beaufils, S.; Vie, V.;
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Institut de Physique de Rennes UMR CNRS 6251 263 avenue Gé;

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ral Leclerc Rennes France|c|;

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1. Nephila davipes Flagelliform Silk-Like GGX Motifs Contribute to Extensibility and Spacer Motifs Contribute to Strength in Synthetic Spider Silk Fibers [J] . Sherry L. Adrianos, Florence Teule, Michael B. Hinman Biomacromolecules . 2013,第6期

机译：Nephila davipes鞭毛状的GGX图案有助于延展性，而间隔物图案则有助于合成蜘蛛丝纤维的强度。
2. Nephila davipes Flagelliform Silk-Like GGX Motifs Contribute to Extensibility and Spacer Motifs Contribute to Strength in Synthetic Spider Silk Fibers [J] . Sherry L. Adrianos, Florence Teule, Michael B. Hinman Biomacromolecules . 2013,第6期

机译：Nephila davipes鞭毛状的GGX图案有助于延展性，而间隔物图案则有助于合成蜘蛛丝纤维的强度。
3. Low-loss fiber-chip coupling by InGaAsP/InP thick waveguides for guided-wave photonic integrated circuits [J] . Vinchant J.F., Pagnod-Rossiaux P. IEEE Photonics Technology Letters . 1994,第11期

机译：通过InGaAsP / InP厚波导的低损耗光纤芯片耦合，用于波导光子集成电路
4. Pristine spider silk fibers as waveguiding microstructure in free space and in an integrated photonic chip [C] . Huby N., Renault A., Beaufils S., 2013 Conference on Lasers and Electro-Optics Europe Internationaluantum Electronics Conference . 2013

机译：原始蜘蛛丝纤维是在自由空间和集成光子芯片中的波导微观结构
5. Spiderworms: Using Silkworms as Hosts to Produce a Hybrid Silkworm-spider Silk Fiber [D] . Licon, Ana Laura. 2019

机译：蜘蛛网：使用蚕作为主机，以生产混合蚕蜘蛛丝纤维
6. Nephila clavipes Flagelliform Silk-like GGX Motifs Contribute to Extensibility and Spacer Motifs Contribute to Strength in Synthetic Spider Silk Fibers [O] . Sherry L. Adrianos, Florence Teulé, Michael B. Hinman, -1

机译：Nephila clavipes鞭毛状丝状GGX图案有助于延展性而间隔基图案则有助于合成蜘蛛丝纤维的强度。
7. Relationship between microstructure and mechanical properties in spider silk fibers: identification of two regimes in the microstructural changes [O] . Gustavo R. Plaza, José Pérez-Rigueiro, Christian Riekel, 2012

机译：蜘蛛丝纤维微观结构与机械性能的关系：鉴定两个制度在微观结构变化中

Pristine spider silk fibers as waveguiding microstructure in free space and in an integrated photonic chip

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