Bent-Core Liquid Crystal-Based Heterojunctions as Gas Sensors

IF 3.5

Advanced Sensor Research Pub Date : 2025-07-13 DOI:10.1002/adsr.202500026

Barbora Jansová, Sujithkumar Ganesh Moorthy, Michal Šmahel, Eric Lesniewska, Michal Kohout, Marcel Bouvet

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Abstract

Taking advantage of the filmogenic properties of liquid crystal materials, bilayer heterojunction devices are built by combining them with a molecular semiconductor. Herein, the construction of a novel type of heterojunction sensor by employing bent-core liquid crystals (A1, A2, B1 and C-1C3) as a sublayer with lutetium bisphthalocyanine (LuPc₂) as a common top layer is achieved. Thanks to the modified drop casting method employed to deposit the sublayers, the resulting heterojunction devices exhibit a smooth surface, the morphology of the sublayer determining that of the top layer. All prepared devices are sensitive to ammonia, with a limit of detection below 10 ppm for C1, C2, and C3-based heterojunctions, even down to 2 ppm for C2-based devices, which is more than satisfactory for controlling ammonia levels in industrial working environments. Moreover, the C3-based device shows the shortest response time (t₉₀ = 30 s), which is suitable not only for air quality monitoring but also for applications like security alarm systems. All presented sensors operate at ambient temperature (20 °C) and humidity (45%).

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弯曲核液晶异质结作为气体传感器

利用液晶材料的成膜特性，将其与分子半导体相结合，构建了双层异质结器件。本文采用弯核液晶（A1, A2， B1和C-1C3）作为亚层，双酞菁镥（LuPc2）作为共同顶层，构建了一种新型异质结传感器。由于采用改进的滴铸法沉积子层，所得到的异质结器件具有光滑的表面，子层的形貌决定了顶层的形貌。所有制备的器件都对氨敏感，对C1， C2和c3基异质结的检测极限低于10 ppm，甚至对C2基器件的检测极限降至2 ppm，这对于控制工业工作环境中的氨水平非常满意。此外，基于c3的设备显示出最短的响应时间（t90 = 30秒），这不仅适用于空气质量监测，也适用于安全报警系统等应用。所有传感器均可在环境温度（20°C）和湿度（45%）下工作。

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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Advanced Sensor Research

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