量子点
荧光
光电子学
生物传感器
光子学
分辨率(逻辑)
光子晶体
材料科学
物理
纳米技术
光学
计算机科学
人工智能
作者
Yanyu Xiong,Qinglan Huang,Taylor D. Canady,Priyash Barya,Shengyan Liu,Opeyemi H. Arogundade,Caitlin M. Race,Congnyu Che,Xiaojing Wang,Lifeng Zhou,Xing Wang,Manish Kohli,Andrew M. Smith,Brian T. Cunningham
标识
DOI:10.1038/s41467-022-32387-w
摘要
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.
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