Elastic ice microfibers

Xu Peizhen; Cui Bowen; Bu Yeqiang; Wang Hongtao; Guo Xin; Wang Pan; Shen Y. Ron; Tong Limin

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Elastic ice microfibers

机译：弹性冰微纤维

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Ice is known to be a rigid and brittle crystal that fractures when deformed. We demonstrate that ice grown as single-crystal ice microfibers (IMFs) with diameters ranging from 10 micrometers to less than 800 nanometers is highly elastic. Under cryotemperature, we could reversibly bend the IMFs up to a maximum strain of 10.9%, which approaches the theoretical elastic limit. We also observed a pressure-induced phase transition of ice from Ih to II on the compressive side of sharply bent IMFs. The high optical quality allows for low-loss optical waveguiding and whispering-gallery-mode resonance in our IMFs. The discovery of these flexible ice fibers opens opportunities for exploring ice physics and ice-related technology on micro- and nanometer scales.

机译：已知冰是刚性和脆性的晶体，其在变形时裂缝。我们表明，作为单晶冰微纤维（IMF）的冰，直径为10微米至小于800纳米的直径是高度弹性的。在CryotEmperature下，我们可以可逆地将IMF弯曲至最大应变为10.9％，这接近理论弹性极限。我们还观察到从IH到II的冰的压力诱导的冰相转变在急剧弯曲的IMF的压缩侧。高光学质量允许在我们的IMF中允许低损耗光波导和潜在的潜在画廊模式谐振。这些柔性冰纤维的发现开启了在微型和纳米尺度上探索冰物理和冰相关技术的机会。

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来源
《Science》 |2021年第6551期|187-192|共6页
作者
Xu Peizhen; Cui Bowen; Bu Yeqiang; Wang Hongtao; Guo Xin; Wang Pan; Shen Y. Ron; Tong Limin;
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作者单位

Zhejiang Univ Coll Opt Sci & Engn State Key Lab Modern Opt Instrumentat Hangzhou 310027 Peoples R China;

Zhejiang Univ Coll Opt Sci & Engn State Key Lab Modern Opt Instrumentat Hangzhou 310027 Peoples R China;

Zhejiang Univ Ctr X Mech Hangzhou 310027 Peoples R China;

Zhejiang Univ Ctr X Mech Hangzhou 310027 Peoples R China;

Zhejiang Univ Coll Opt Sci & Engn State Key Lab Modern Opt Instrumentat Hangzhou 310027 Peoples R China;

Zhejiang Univ Coll Opt Sci & Engn State Key Lab Modern Opt Instrumentat Hangzhou 310027 Peoples R China;

Univ Calif Berkeley Dept Phys Berkeley CA 94720 USA;

Zhejiang Univ Coll Opt Sci & Engn State Key Lab Modern Opt Instrumentat Hangzhou 310027 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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1. Highly Elastic and Water Stable Zein Microfibers as a Potential Drug Delivery System for Wound Healing [J] . Alma Akhmetova, Georg-Marten Lanno, Karin Kogermann, Pharmaceutics . 2020,第5期

机译：高度弹性和水稳定的玉米蛋白微纤维作为伤口愈合的潜在药物递送系统
2. Conductive network formation of carbon nanotubes in elastic polymer microfibers and its effect on the electrical conductance: Experiment and simulation [J] . Cho Hyun Woo, Kim Sang Won, Kim Jeongmin, The Journal of Chemical Physics . 2016,第19期

机译：弹性聚合物微纤维中碳纳米管的导电网络形成及其对电导率的影响：实验和仿真
3. Modeling the soft backing layer thickness effect on adhesion of elastic microfiber arrays [J] . Rong Long, Chung-Yuen Hui, Seok Kim, Journal of Applied Physics . 2008,第4期

机译：模拟软衬层厚度对弹性超细纤维阵列粘附的影响
4. Optical microfibers and microfiber resonators [C] . Sumetsky M. International Conference on Transparent Optical Networks;ICTON '09 . 2009

机译：光学微纤维和微纤维谐振器
5. Experimental and Theoretical Study on Biaxial Normal-Shear Bonding Strength at Interface between Elastic/Elastic, Elastic/Viscoelastic and Viscoelastic/Viscoelastic Materials. [D] . Chowdhuri, Mohammad Al Amin Khan. 2012

机译：弹性/弹性，弹性/粘弹性和粘弹性/粘弹性材料界面的双轴法向剪切粘结强度的实验和理论研究。
6. Highly Elastic and Water Stable Zein Microfibers as a Potential Drug Delivery System for Wound Healing [O] . Alma Akhmetova, Georg-Marten Lanno, Karin Kogermann, 2020

机译：高弹性和水稳定性玉米蛋白微纤维作为伤口愈合的潜在药物递送系统
7. Highly Elastic and Water Stable Zein Microfibers as a Potential Drug Delivery System for Wound Healing [O] . Alma Akhmetova, Georg-Marten Lanno, Karin Kogermann, 2020

机译：高度弹性和水稳定的玉米蛋白微纤维作为伤口愈合的潜在药物递送系统
8. Three Dimensional Force Transfer Between Parallel Microfibers, Rigid or Elastic [R] . Sadowsky, M. A., Hussain, M. A. 1965

机译：平行微纤维之间的三维力传递，刚性或弹性

Elastic ice microfibers

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