Mahboube Esmailpour scite author profile

Methanol contamination of alcoholic drinks can lead to severe health problems for human beings including poisoning, headache, blindness, and even death. Therefore, having access to a simple and inexpensive way for monitoring beverages is vital. Herein, a portable, low cost, and easy to use sensor is fabricated based on the exploitation of chiral nematic liquid crystals (CLCs) and a textile grid for detection of methanol in two distinct alcoholic beverages: red wine and vodka. The working principle of the sensor relies on the reorientation of the liquid crystal molecules upon exposure to the contaminated alcoholic beverages with different concentrations of methanol (0, 2, 4, and 6 wt %) and the changes in the observed colorful textures of the CLCs as well as the intensity of the output light. The proposed sensor is label free and rapid.

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Rapid, label-free and low-cost diagnostic kit for COVID-19 based on liquid crystals and machine learning

Esmailpour¹,

Mohammadimasoudi²,

Shemirani³

et al. 2022

Biosensors and Bioelectronics: X

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Stagnation Point Flow of Nanofluids Towards Stretching Sheet Through a Porous Medium with Heat Generation

Abdollahzadeh¹,

Sedighi²,

Esmailpour³

2018

j nanofluids

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Optical CO₂ gas sensor based on liquid crystals in a textile grid

Goudarzi¹,

Mohammadimasoudi²,

Habibimoghaddam³

et al. 2023

Opt. Mater. Express

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Given the increasing concerns about global warming, it is undeniable that measuring and controlling carbon dioxide (CO2) levels, a colorless and odorless greenhouse gas, is of great value. In this respect, liquid crystals (LCs) as an anisotropic material hold promise for fabricating such gas sensors. Here, we report a sensitive optical gas sensor for real-time monitoring of CO2 gas, exploiting a textile grid impregnated with LC and diethanolamine (DEA) as a CO2-sensitive material. The sensing mechanism relies on the reorientation of LC molecules upon the interaction of gas analytes with DEA. By tracing optical texture changes and extracting the corresponding intensities, CO2 gas concentrations ranging from 300 to 10,000 ppm were detected. The sensor exhibits a response time of 12 seconds and a recovery time of 7 seconds at 800 ppm. The sensor is simple and cost-effective.

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