Fabrication of a paper-based facile and low-cost microfluidic device and digital imaging technique for point-of-need monitoring of hypochlorite.
Snehasish DebnathRiya Ghoshnull PragtiSuman MukhopadhyayKamesh Viswanathan BaskaranPabitra B ChatterjeePublished in: The Analyst (2023)
Lab-on-a-paper-based devices are promising alternatives to the existing arduous techniques for point-of-need monitoring. The present work reports an instant and facile method to produce a microfluidic paper-based analytical device (μPAD). The fabricated μPAD has been used to detect hypochlorite (OCl - ) by incorporating newly synthesized chromo-fluorogenic ratiometric probes 1 and 2 into the sample reception zone. The probes showed high selectivity and fast response (<10 s) toward OCl - with an excellent linear relationship in the concentration range of 0-100 μM. The concentration-dependent fluorometric change driven by the reaction of 1@μPAD with OCl - has been monitored using gel-doc imaging systems, which is unprecedented. Digitizing the intensity of the colour solution with different mathematical models of colour has developed a straightforward method for monitoring OCl - without any interference from its competitors. 1@μPAD can detect OCl - at ∼10 times lower than the WHO recommended limit. The detection limit of 1@μPAD via a digital camera-based fluorescence technique was found to be better over digital camera-based cuvette assays. Therefore, 1@μPAD has been successfully utilized to monitor OCl - in actual environmental water samples with portability, ease of use, and sensitivity. The analytical RSD was found to be ≤3% based on fluorimetric detection using 1@μPAD. The chemodosimetric reaction between OCl - and the probe was evidenced by UV-vis and fluorescence spectroscopy, 1 H NMR, and ESI-MS. The rapid response time, biocompatibility, low cytotoxicity, 100% aqueous solubility, ratiometric feature, and exclusive OCl - selectivity over other competitive ROS/RNS successfully lead to the application of the probes for bioimaging of exogenous as well as endogenous OCl - in normal cells (HEK293) and cancerous cells (HeLa).
Keyphrases
- living cells
- single molecule
- quantum dots
- high resolution
- fluorescent probe
- low cost
- induced apoptosis
- cell cycle arrest
- loop mediated isothermal amplification
- small molecule
- high throughput
- fluorescence imaging
- ms ms
- label free
- sensitive detection
- mass spectrometry
- multiple sclerosis
- single cell
- machine learning
- hydrogen peroxide
- emergency department
- dna damage
- convolutional neural network
- circulating tumor cells
- signaling pathway
- risk assessment
- hyaluronic acid
- nucleic acid