Tu San Park scite author profile

Smartphone-based optical detection is a potentially easy-to-use, handheld, true point-of-care diagnostic tool for the early and rapid detection of pathogens. Paper microfluidics is a low-cost, field-deployable, and easy-to-use alternative to conventional microfluidic devices. Most paper-based microfluidic assays typically utilize dyes or enzyme-substrate binding, while bacterial detection on paper microfluidics is rare. We demonstrate a novel application of smartphone-based detection of Salmonella on paper microfluidics. Each paper microfluidic channel was pre-loaded with anti-Salmonella Typhimurium and anti-Escherichia coli conjugated submicroparticles. Dipping the paper microfluidic device into the Salmonella solutions led to the antibody-conjugated particles that were still confined within the paper fibers to immunoagglutinate. The extent of immunoagglutination was quantified by evaluating Mie scattering from the digital images taken at an optimized angle and distance with a smartphone. A smartphone application was designed and programmed to allow the user to position the smartphone at an optimized angle and distance from the paper microfluidic device, and a simple image processing algorithm was implemented to calculate and display the bacterial concentration on the smartphone. The detection limit was single-cell-level and the total assay time was less than one minute.

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Cell-phone-based measurement of TSH using Mie scatter optimized lateral flow assays

You

Park

Yoon

2013

Biosensors and Bioelectronics

191

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Smartphone-based, sensitive µPAD detection of urinary tract infection and gonorrhea

Cho

Park

Nahapetian

et al. 2015

Biosensors and Bioelectronics

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Smartphone Detection of <italic>Escherichia coli</italic> From Field Water Samples on Paper Microfluidics

Park

Yoon

2015

IEEE Sensors J.

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Paper microfluidic extraction and direct smartphone-based identification of pathogenic nucleic acids from field and clinical samples

et al. 2014

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Tu San Park

Smartphone quantifies Salmonella from paper microfluidics

Cell-phone-based measurement of TSH using Mie scatter optimized lateral flow assays

Smartphone-based, sensitive µPAD detection of urinary tract infection and gonorrhea

Smartphone Detection of <italic>Escherichia coli</italic> From Field Water Samples on Paper Microfluidics

Paper microfluidic extraction and direct smartphone-based identification of pathogenic nucleic acids from field and clinical samples

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