Printed Ultrastable Bioplasmonic Microarrays for Point-of-Need Biosensing. Academic Article uri icon

abstract

  • Paper-based point-of-need (PON) biosensors are attractive for various applications, including food safety, agriculture, disease diagnosis, and drug screening, owing to their low cost and ease of use. However, existing paper-based biosensors mainly rely on biolabels, colorimetric reagents, and biorecognition elements and exhibit limited stability under harsh environments. Here, we report a label-free paper-based biosensor composed of bioplasmonic microarrays for sensitive detection and quantification of protein targets in small volumes of biofluids. Bioplasmonic microarrays were printed using an ultrastable bioplasmonic ink, rendering the PON sensors excellent thermal, chemical, and biological stability for their reliable performance in resource-limited settings. We fabricated silicone hydrophobic barriers and bioplasmonic microarrays with direct writing and droplet jetting approaches on a three-dimensional (3D) nanoporous paper. Direct writing hydrophobic barriers can define hydrophilic channels less than 100 m wide. High-resolution patterning of hydrophilic test domains enables the handling and analysis of small fluid volumes. We show that the plasmonic sensors based on a vertical flow assay provide similar sensitivity and low limit of detection with a 60 L sample volume compared to those with 500 L samples based on an immersion approach and can shorten assay time from 90 to 20 min.

published proceedings

  • ACS Appl Mater Interfaces

altmetric score

  • 1

author list (cited authors)

  • Guo, H., Yin, Z. e., Namkoong, M., Li, Y., Nguyen, T., Salcedo, E., Arizpe, I., & Tian, L.

citation count

  • 3

complete list of authors

  • Guo, Heng||Yin, Ze||Namkoong, Myeong||Li, Yixuan||Nguyen, Tan||Salcedo, Elizabeth||Arizpe, Ivanna||Tian, Limei

publication date

  • January 2022