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Abstract While nanoscale quantum emitters are effective tags for measuring biomolecular interactions, their utilities for applications that demand single-unit observations are limited by the requirements for large numerical aperture (NA) objectives, fluorescence intermittency, and poor photon collection efficiency resulted from omnidirectional emission. Here, we report a nearly 3000-fold signal enhancement achieved through multiplicative effects of enhanced excitation, highly directional extraction, quantum efficiency improvement, and blinking suppression through a photonic crystal (PC) surface. The approach achieves single quantum dot (QD) sensitivity with high signal-to-noise ratio, even when using a low-NA lens and an inexpensive optical setup. The blinking suppression capability of the PC improves the QDs on-time from 15% to 85% ameliorating signal intermittency. We developed an assay for cancer-associated miRNA biomarkers with single-molecule resolution, single-base mutation selectivity, and 10-attomolar detection limit. Additionally, we observed differential surface motion trajectories of QDs when their surface attachment stringency is altered by changing a single base in a cancer-specific miRNA sequence.more » « less
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Che, Congnyu ; Xue, Ruiyang ; Li, Nantao ; Gupta, Prashant ; Wang, Xiaojing ; Zhao, Bin ; Singamaneni, Srikanth ; Nie, Shuming ; Cunningham, Brian T. ( , ACS Nano)
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Li, Nantao ; Wang, Xiaojing ; Tibbs, Joseph ; Che, Congnyu ; Peinetti, Ana Sol ; Zhao, Bin ; Liu, Leyang ; Barya, Priyash ; Cooper, Laura ; Rong, Lijun ; et al ( , Journal of the American Chemical Society)