This method may identify Covid-19 virus faster
In comparison with natural evaporation, this so-called partial Leidenfrost-assisted evaporation provides a levitating force which causes the contents of the droplet to float toward the nanoantenna as the liquid evaporates.
In a fight against coronavirus, scientists have developed an ultrasensitive biosensing method that could dramatically shorten the amount of time required to verify the presence of the Covid-19 virus in a sample.
The study, published in the journal ACS Nano, found that there`s significant room to improve the pace of coronavirus testing.
Current Covid-19 verification tests require a few hours to complete, as verification of the presence of the virus requires the extraction and comparison of viral genetic material, a time-intensive process requiring a series of steps.
"In our method, all of the contents of a sampling droplet can be detected, and there is no extraction or other tedious procedures," said study authors from the Virginia Polytechnic Institute and State University in the US.
According to the researchers, the key to this method is in creating a surface over which water containing the sample travels in different ways. On surfaces where drops of water may "stick" or "glide", the determining factor is friction.
The method starts by placing a collected sample into liquid. The liquid is then introduced into an engineered substrate surface with both high and low friction regions.
Droplets containing sample will move more quickly in some areas but anchor in other locations thanks to a nanoantenna coating that introduces more friction.
These stop-and-go waterslides allow water droplets to be directed and transported in a programmable and reconfigurable fashion.
The "stopped" locations are very small because of an intricately placed coating of carbon nanotubes on etched micropillars.
These prescribed spots with nanoantennae are established as active sensors, the researchers informed. They heated the substrate surface so that the anchored water droplet starts to evaporate.
In comparison with natural evaporation, this so-called partial Leidenfrost-assisted evaporation provides a levitating force which causes the contents of the droplet to float toward the nanoantenna as the liquid evaporates.
The bundle of sample particles shrinks toward the constrained centre of the droplet base, resulting in a rapidly-produced package of analyte molecules.
For fast sensing and analysis of these molecules, a laser beam is directed onto the spot with the packed-in molecules to generate their vibrational fingerprint light signals, a description of the molecules expressed in waveforms.
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This method of laser-enabled feedback is called surface-enhanced Raman spectroscopy.
All of this happens in just a few minutes, and the fingerprint spectrum and frequency of the coronavirus can be quickly picked out of a lineup of the returned data, the study noted.
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