用于监测 NH3 的高灵敏度羊毛粉辅助比色传感纱线。

IF 10.7 1区生物学 Q1 BIOPHYSICS

Biosensors and Bioelectronics Pub Date : 2024-10-04 DOI:10.1016/j.bios.2024.116833

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引用次数: 0

摘要

比色传感器通过可见的颜色变化进行简单而快速的检测，因此在气体监测领域有着广泛的应用。然而，制备高灵敏度的比色传感器仍具有挑战性。在此，本研究以花青素为比色染料，以羊毛粉为有效的氨气（NH3）吸附剂，制备了一种高灵敏度的生物质比色传感纱线。对所制备纱线的灵敏度进行了检测限和响应时间评估。令人惊讶的是，添加 3% 的羊毛粉大大提高了所制备纱线的灵敏度，当暴露在 150 ppm NH3 中时，检测限和响应时间分别从 100 ppm 和 2 分钟降至 20 ppm 和 20 s。制备的纱线还具有良好的选择性和可重复使用性。会上还举例说明了比色纱线的实际应用。这项工作为制造具有视觉输出的有毒气体监测可穿戴设备提供了一种简便的策略。

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Wool powder assisted colorimetric sensing yarn with high sensitivity for NH3 monitoring

Colorimetric sensors have applications in gas monitoring due to their simple and quick detection through visible color changes. However, it remains challenging to prepare colorimetric sensors with high sensitivity. Herein, this work fabricated a biomass-based colorimetric sensing yarn with high sensitivity using anthocyanins as the colorimetric dye and wool powder as an effective ammonia (NH₃) adsorbent. The sensitivity of the prepared yarns was evaluated for detection limit and response time. Surprisingly, the addition of 3% wool powder greatly improved the sensitivity of the prepared yarns, with a reduction of both detection limit and responsive time from 100 ppm to 20 ppm, and 2 min to 20 s, respectively when exposed in 150 ppm NH₃. The prepared yarns also showed good selectivity and reusability. An example of the practical use of colorimetric yarns was presented. This work provides a facile strategy for fabricating wearable devices for toxic gas monitoring with visual output.

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来源期刊

Biosensors and Bioelectronics 工程技术-电化学

CiteScore

20.80

自引率

7.10%

发文量

1006

审稿时长

29 days

期刊介绍： Biosensors & Bioelectronics, along with its open access companion journal Biosensors & Bioelectronics: X, is the leading international publication in the field of biosensors and bioelectronics. It covers research, design, development, and application of biosensors, which are analytical devices incorporating biological materials with physicochemical transducers. These devices, including sensors, DNA chips, electronic noses, and lab-on-a-chip, produce digital signals proportional to specific analytes. Examples include immunosensors and enzyme-based biosensors, applied in various fields such as medicine, environmental monitoring, and food industry. The journal also focuses on molecular and supramolecular structures for enhancing device performance.