Nanomaterial-mediated paper-based biosensors for colorimetric pathogen detection.

The pervasive spread of infectious diseases and pandemics, such as the 2019 coronavirus disease (COVID-19), are becoming increasingly serious and urgent threats to human health. Preventing the spread of such diseases prioritizes the development of sensing devices that can rapidly, selectively, and reliably detect pathogens at minimal cost. Paper-based analytical devices (PADs) are promising tools that satisfy those criteria. Numerous paper-based biosensors have been established that rival conventional pathogen detection methods. Among them, colorimetric strategies are promising since results can be interpreted by eye, and are simple to operate, which is advantageous for point-of-care testing (POCT). Particularly, the application of nanomaterials on paper-based biosensors has become important as these materials are capable of converting signals from pathogens through unique mechanisms to yield an amplified colorimetric readout. To highlight the research progress on using nanomaterials in colorimetric paper-based biosensor for pathogen detection, we discuss the sensing mechanisms of how they work, structural and analytical characteristics of the devices, and representative recent applications. Current challenges and future directions of using PADs and nanomaterial-mediated strategies are also discussed. Image 1 • Recent developments in paper-based analytical devices for colorimetric detection of pathogens are reviewed in detail. • Three main types of point-of-care paper-based devices are exploited for robust performance in pathogen detection. • Colorimetric strategies are sensitive and offer fast response and convenience to end-users. • Diverse nanomaterials are deployed for both signal transduction and amplification to enhance sensitivity. • Sensing mechanisms fundamental to colorimetric pathogen detection are discussed. [ABSTRACT FROM AUTHOR]