Decoupling from structural relaxation of short- and longtime dynamics of a paramagnetic tracer dissolved in a liquid-crystal polymer

L. Andreozzi, M. Bagnoli, M. Faetti, M. Giordano, D. Palazzuoli
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Abstract

Abstract Dynamic processes effective on the nanometre length scale are of interest in supercooled fluids and polymers owing to their influence on structural and dynamic properties of these materials. In particular, nanometre and nanosecond scales mark the crossover from liquid to solid properties when approaching the glass transition. A possible explanation of the complex dynamic response of these systems for these length and time regions is provided in terms of heterogeneity. Heterogeneity in supercooled materials manifests itself by the presence of different domains, which relax towards equilibrium with different rates. Therefore, experimental techniques, which are sensitive to slow and fast molecules and able to follow their dynamics, are of paramount importance in this field of research. The present work is devoted to investigate heterogeneity in a polymer. We focused our attention on a side-chain liquid-crystal polymer (SCLCP). In this study a nanometre-scale molecular probe is dissolved in the SCLCP and its rotational dynamics are studied by linear and nonlinear electron spin resonance (ESR) spectroscopies, which are sensitive to the long and short time scales respectively of the rotational relaxation. In particular, linear ESR spectroscopy evidenced the presence of heterogeneity while on the short time scale detected by nonlinear ESR the correlation decay turns out to be homogeneous.
顺磁示踪剂溶解在液晶聚合物中的短期和长期动力学的结构弛豫解耦
在纳米尺度上有效的动态过程对过冷流体和聚合物的结构和动力学性能有影响,是这些材料的研究热点。特别是,当接近玻璃化转变时,纳米和纳秒尺度标志着从液体到固体性质的交叉。这些系统在这些长度和时间区域的复杂动态响应的一个可能的解释是在异质性方面提供。过冷材料的非均质性表现为存在不同的畴,这些畴以不同的速率松弛到平衡态。因此,对慢速分子和快速分子敏感并能够跟踪其动力学的实验技术在这一研究领域具有至关重要的意义。本工作致力于研究聚合物的非均质性。我们将注意力集中在侧链液晶聚合物(SCLCP)上。本研究将一个纳米尺度的分子探针溶解在SCLCP中,并利用分别对旋转弛豫的长、短时间尺度敏感的线性和非线性电子自旋共振(ESR)光谱研究了其旋转动力学。特别是,线性ESR光谱证明了非均质性的存在,而在非线性ESR检测的短时间尺度上,相关衰减是均匀的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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