Abstract
A novel foam-based colorimetric alcohol sensor was developed for the detection of alcohol in saliva. Detection was based on the color change of a potassium dichromate-sulfuric acid solution absorbed by melamine foam. In the presence of alcohol, the orange colorimetric sensor changed color to brown, green and, ultimately, blue, depending on the concentration of alcohol in the sample. The response of the proposed sensor toward alcohol was linear from 0.10 to 2.5% v/v. The limit of detection was 0.03% v/v. Alcohol concentration could be determined using the naked eye in the range of 0.00 to 10% v/v. The developed alcohol sensor presented good operational accuracy (RSD = 0.30–1.90%, n = 8) and good stability for 21 days when stored at 25 °C and 75 days when stored at 4 °C. The results of alcohol detection with the developed sensor showed no significant difference from the results of spectrophotometric detection at a 95% confidence level (p > 0.05). The sensor was easy to use, small, inexpensive and portable, enabling drivers to accurately measure their own blood alcohol level and providing convenient speed in forensic applications.
Highlights
IntroductionAlcohol (ethanol; C2 H5 OH) is widely used in the medical, chemical and beverage industries
Alcohol is widely used in the medical, chemical and beverage industries
Semi-quantitative analysis of alcohol in undiluted saliva samples could be performed with the naked eye and a smartphone
Summary
Alcohol (ethanol; C2 H5 OH) is widely used in the medical, chemical and beverage industries. Organization (WHO) reported global data on road traffic deaths arising from the consumption of alcohol. It estimated that 5–35% of all reported road deaths involved the consumption of alcohol. Driving after drinking alcohol significantly increases the risk of a crash and the severity of the crash. To reduce the number of road accidents, many countries have passed driving laws limiting the maximum permitted blood alcohol concentration (BAC) to 0.05% [4,5]. A BAC of 0.02% can be detected in saliva and this is helpful in forensic investigations, and in medical and research settings [6,7,8]. A cost-effective method for the rapid, roadside detection of alcohol in undiluted saliva is of interest
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