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用于防伪标签的指温探测液晶复合薄膜。

Finger-Temperature-Detecting Liquid Crystal Composite Film for Anti-Counterfeiting Labels.

机构信息

School of Economics, Peking University, Beijing 100871, China.

Department of Materials Science and Engineering, College of Engineering, Peking University, Beijing 100871, China..

出版信息

Molecules. 2020 Jan 25;25(3):521. doi: 10.3390/molecules25030521.

Abstract

The development of the economy has increased the demand for anti-counterfeiting technologies, and with the traditional ones becoming known to the public, new and more effective ones are needed. In this study, a series of liquid crystal mixtures containing side-chain liquid crystal polymers and small-molecular-weight liquid crystals (LCs) were designed and prepared. The phase transition behavior and self-assembling structures of the LC mixtures were investigated by a combination of differential scanning calorimetry, polarized optical microscopy, and small-angle X-ray diffraction. The optical properties of the mixture film were characterized with a UV/VIS/IR spectrum study. The results reveal that the obtained film exhibited different optical modes between transparent, scattering, and selective reflection under finger-temperature control. Therefore, by the introduction of a coexisting thermal- or optical-polymer-dispersed network, a liquid crystal composite film with an integration of apparent optical switching modes and enhanced strength and toughness was successfully demonstrated. This research provides a versatile strategy for the design and preparation of liquid crystal anti-counterfeiting materials for practical use. In this study, a prototype finger-temperature-detecting anti-counterfeiting label was prepared, and its temperature-response property was demonstrated.

摘要

经济的发展增加了对防伪技术的需求,随着传统防伪技术为公众所熟知,需要新的、更有效的防伪技术。在这项研究中,设计并制备了一系列含有侧链液晶聚合物和小分子液晶(LC)的液晶混合物。通过差示扫描量热法、偏光显微镜和小角 X 射线衍射相结合的方法研究了 LC 混合物的相变行为和自组装结构。用紫外/可见/红外光谱研究了混合物膜的光学性质。结果表明,所得薄膜在手指温度控制下表现出不同的光学模式,包括透明、散射和选择反射。因此,通过引入共存的热或光聚合物分散网络,成功地展示了一种具有明显光学切换模式以及增强的强度和韧性的液晶复合膜。这项研究为设计和制备实用的液晶防伪材料提供了一种通用的策略。在这项研究中,制备了一种原型手指温度探测防伪标签,并展示了其温度响应特性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a24c/7037565/497189bbda75/molecules-25-00521-sch001.jpg

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