Molecular Stress Relief through a Force-Induced Irreversible Extension in Polymer Contour Length

Dong Wu Jeremy M. Lenhardt Ashley L. Black Boris B. Akhremitchev+ and Stephen L. Craig

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Molecular Stress Relief through a Force-Induced Irreversible Extension in Polymer Contour Length

机译：通过力诱导聚合物轮廓长度不可逆延伸的分子应力消除

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Single-molecule force spectroscopy is used to observe the irreversible extension of a gem-dibromocyclopropane (gDBC)-functionalized polybutadiene under tension, a process akin to polymer necking at a single-molecule level. The extension of close to 28% in the contour length of the polymer backbone occurs at roughly 1.2 nN (tip velocity of 3 μm/s) and is attributed to the force-induced isomerization of the gDBCs into 2,3-dibromoalkenes. The rearrangement represents a possible new mechanism for localized stress relief in polymers and polymer networks under load, and the quantification of the force dependency provides a benchmark value for further studies of mechanically triggered chemistry in bulk polymers.

机译：单分子力光谱法用于观察在张力下由宝石-二溴环丙烷（gDBC）-官能化的聚丁二烯的不可逆延伸，该过程类似于在单分子水平上的聚合物颈缩。聚合物主链轮廓长度的接近28％的延伸发生在大约1.2 nN（尖端速度为3μm/ s）处，这归因于gDBC强制诱导异构化为2,3-二溴代烯烃。重排代表了一种可能的新机制，用于减轻负载下聚合物和聚合物网络中的局部应力，力依赖性的量化为进一步研究本体聚合物中的机械触发化学反应提供了基准值。

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《American Chemical Society》 |2010年第45期|p.15936-15938|共3页
作者
Dong Wu Jeremy M. Lenhardt Ashley L. Black Boris B. Akhremitchev+ and Stephen L. Craig;
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作者单位

Department of Chemistry and Center for Biologically Inspired Materials and Material Systems, Duke University, Durham, North Carolina 27708-0346, United States;

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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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入库时间 2022-08-18 00:50:25

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1. Molecular Stress Relief through a Force-Induced Irreversible Extension in Polymer Contour Length [J] . Dong Wu, Jeremy M. Lenhardt, Ashley L. Black, Journal of the American Chemical Society . 2010,第45期

机译：通过力诱导聚合物轮廓长度不可逆延伸的分子应力消除
2. Contour length fluctuations in polymer melts: A direct molecular proof [J] . Zamponi M, Monkenbusch M, Willner L, EPL . 2005,第6期

机译：聚合物熔体的轮廓长度波动：直接的分子证明
3. Molecular observation of contour length fluctuations in polymer melts [J] . Wischnewski A Physica, B. Condensed Matter . 2004,第1a3期

机译：聚合物熔体轮廓长度波动的分子观察
4. An Improved Method of Moments as a More Reliable Alternative for Prediction of Average Molecular Weights of Irreversible Non-Linear Polymerizations and Reversible Polycondensations [C] . Rolando C. S. Dias, Mario Rui P. F. N. Costa Monographs vol.138; International Workshop on Polymer Reaction Engineering; 20041003-06; Hamburg(DE) . 2004

机译：一种改进的矩量法，可作为预测不可逆非线性聚合和可逆缩聚反应的平均分子量的可靠替代方法
5. Extension of viscoplasticity based on overstress to capture the effects of prior aging on the time dependent deformation behavior of a high-temperature polymer: Experiments and modeling. [D] . McClung, Amber J. W. 2008

机译：基于超应力的粘塑性扩展，以捕获先前老化对高温聚合物随时间变化的变形行为的影响：实验和建模。
6. Extensibility of isoforms of cardiac titin: variation in contour length of molecular subsegments provides a basis for cellular passive stiffness diversity. [O] . K Trombitás, A Redkar, T Centner, 2000

机译：心动蛋白同工型的可扩展性：分子亚段轮廓长度的变化为细胞被动刚度多样性提供了基础。
7. Molecular observation of contour length fluctuations limiting topological confinement in polymer melts [O] . Wischnewski A., Monkenbusch M., Willner L., 2002

机译：轮廓长度波动的分子观察限制了聚合物熔体的拓扑限制
8. Synthesis of Side Chain Liquid Crystal Polymers by Living Ring Opening Metathesis Polymerization. 2. Influence of Molecular Weight, Polydispersity, and Flexible Spacer Length (n=9-12) on the Thermotropic Behavior of the Resulting Polymers. [R] . Komiya, Z., Pugh, C., Schrock, R. R. 1992

机译：活环开环易位聚合法合成侧链液晶聚合物。 2.分子量，多分散性和柔性间隔物长度（n = 9-12）对所得聚合物的热致行为的影响。

Molecular Stress Relief through a Force-Induced Irreversible Extension in Polymer Contour Length

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