Abstract
AbstractThere is currently no real-time airborne virus tracking method, hindering the understanding of rapid virus changes and associated health impacts. Nano-digital in-line holographic microscopy (Nano-DIHM) is a lensless technology that can directly obtain the interference patterns of objects by recording the scattered light information originating from the objects. Here, we provide evidence for real-time physicochemical tracking of virus-laden droplets and aerosols in the air using desktop label-free Nano-DIHM. The virus interference patterns, as single and ensemble particles, were imaged by the Nano-DIHM with 32.5 ms resolution. The next-generation Stingray and Octopus software was used to automate object detection, characterization and classification from the recorded holograms. The detection system was demonstrated to detect active MS2 bacteriophages, inactivated SARS-CoV-2 and RNA fragments, and an MS2 mixture with metallic and organic compounds. This work demonstrates the feasibility of using Nano-DIHM to provide rapid virus detection to improve transmission management in real time.
Funder
Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada
Environment and Climate Change Canada
Canada Foundation for Innovation
PRIMA Québec supports and facilitates the advanced materials ecosystem and acts as an engine of innovation and growth in Quebec.
Publisher
Springer Science and Business Media LLC
Cited by
1 articles.
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