A high throughput method for label-free, noncontact, noninvasive, and nondestructive detection of at least one virus infected or virus free individual from at least one tested individual is provided. The method includes collecting a sample from exhaled breath of a subject for analysis of the sample. The collecting includes the subject exhaling into at least one sampler and collecting aerosols and/or any airborne compound from the exhaled breath by passing the exhaled breath through a metamaterial membrane within the sampler. The metamaterial membrane is arranged transverse to a flow of exhaled breath through the sampler. The method further includes analyzing the sample for detection of at least one virus infected individual from at least one tested individual.

The present disclosure relates to methods and devices for the collection of exhaled aerosols. In some embodiments, the device disclosed herein comprises a cup and an attachable lid, wherein the cup has a conical base and the lid includes a pipette access port with a removable cap and a sealed buffer reservoir. In some embodiments, the method for a subject to collect exhaled aerosols disclosed herein comprises the steps of placing a collection cup against the subject's mouth, the subject coughing into the collection cup at least once, immediately closing the device by reattached a lid to the collection cup, placing the collection cup in a transport bag, and providing the transport bag to a processor. The processor can then incubate the transport bag containing the collection cup, add buffer to the collection cup to rinse and suspend any collected exhaled aerosols, and then extract the buffer containing the exhaled aerosols either for storage or for immediate amplification and sequencing for the detection of pathogens.