Printed Nanochain‐Based Colorimetric Assay for Quantitative Virus Detection
Zeying Zhang, Huadong Wang, Meng Su, Yali Sun, Shuang‐Jie Tan, Ekaterina Ponkratova, Maoxiong Zhao, Dongdong Wu, Keyu Wang, Qi Pan, Bingda Chen, Dmitry Zuev, Yanlin Song
Abstract
Abstract Fast and ultrasensitive detection of pathogens is very important for efficient monitoring and prevention of viral infections. Here, we demonstrate a label‐free optical detection approach that uses a printed nanochain assay for colorimetric quantitative testing of viruses. The antibody‐modified nanochains have high activity and specificity which can rapidly identify target viruses directly from biofluids in 15 min, as well as differentiate their subtypes. Arising from the resonance induced near‐field enhancement, the color of nanochains changes with the binding of viruses that are easily observed by a smartphone. We achieve the detection limit of 1 PFU μL −1 through optimizing the optical response of nanochains in visible region. Besides, it allows for real‐time response to virus concentrations ranging from 0 to 1.0×10 5 PFU mL −1 . This low‐cost and portable platform is also applicable to rapid detection of other biomarkers, making it attractive for many clinical applications.