使用相关激光斑点的液晶凝胶型丙酮传感器

IF 8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Sensors and Actuators B: Chemical Pub Date : 2024-10-13 DOI:10.1016/j.snb.2024.136773

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引用次数: 0

摘要

丙酮是一种常见的挥发性有机化合物（VOC），即使浓度很低也会对健康造成危害。目前的丙酮传感器成本高昂，需要专业设备和专业知识。这项研究利用液晶凝胶（LCG）产生的斑点图案，开发了一种新型蒸汽传感器，用于确定丙酮蒸汽的浓度。该水蒸气传感器由液晶凝胶薄膜组成，液晶凝胶薄膜是由含有聚苯乙烯微球和液晶（LC）的混合物相分离制备而成。当 LCG 薄膜暴露在丙酮蒸汽环境中时，液晶分子的取向会发生变化，从而改变液晶畴的等效折射率。这导致 LCG 薄膜在激光照射下的散射状态发生变化，形成不同的斑点图案。通过计算斑点图像的相关系数来确定丙酮蒸气的浓度，传感器的灵敏度和检测限分别为 4×10-4 ppm-1 和 754.05 ppm。与传统的液相色谱膜蒸汽传感器相比，所开发的基于相关激光斑点的光学系统更简单、更便宜、更稳定。这种丙酮气体传感器有望应用于工业和室内空气质量检测。

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Liquid crystal gel-based acetone sensor using correlated laser speckles

Acetone, a common volatile organic compound (VOC), poses health risks even at low concentrations. Current acetone sensors are costly and require specialized equipment and expertize. This work develops a novel vapor sensor for determining acetone vapor concentration using the speckle patterns generated by liquid crystal gels (LCGs). The vapor sensor comprises a LCG film prepared by the phase separation of a mixture containing polystyrene microspheres and liquid crystals (LCs). The orientation of the LC molecules changes when the LCG film is exposed to an acetone vapor environment, altering the equivalent refractive indices of the LC domains. This leads to a change in the scattering state of the LCG film under laser illumination, forming different speckle patterns. The concentration of acetone vapor is determined by calculating the correlation coefficient of the speckle images, where the sensitivity and limit of detection of the sensor are 4 × 10⁻⁴ ppm⁻¹ and 754.05 ppm, respectively. The developed correlated laser speckle-based optical system is simpler, less expensive, and more stable than traditional LC film vapor sensors. This acetone gas sensor has potential applications in industrial and indoor air quality testing.

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来源期刊

Sensors and Actuators B: Chemical 工程技术-电化学

CiteScore

14.60

自引率

11.90%

发文量

1776

审稿时长

3.2 months

期刊介绍： Sensors & Actuators, B: Chemical is an international journal focused on the research and development of chemical transducers. It covers chemical sensors and biosensors, chemical actuators, and analytical microsystems. The journal is interdisciplinary, aiming to publish original works showcasing substantial advancements beyond the current state of the art in these fields, with practical applicability to solving meaningful analytical problems. Review articles are accepted by invitation from an Editor of the journal.