Photonic Crystal-Integrated Optoelectronic Devices with Naked-Eye Visualization and Digital Readout for High-Resolution Detection of Ultratrace Analytes.

Abstract

The detection of ultratrace analytes is highly desirable for the noninvasive monitoring of human diseases. However, a major challenge is fast, naked-eye, high-resolution ultratrace detection. Herein, we first designed a rectangular 3D composite photonic crystal (PC)-based optoelectronic device that combines the sensitivity-enhancing effects of PCs and optoelectronic devices with fast and real-time digital monitoring. We developed a crack-free, centimeter-scale, mechanically robust ellipsoidal composite PCs with sufficient hardness and modulus, even exceeding most plastics and aluminum alloys. The high mechanical strength of ellipsoidal composite PCs allows them to be hand-machined into rectangular geometries that can be conformally covered with the centimeter-scale flat light-detection area without interference from ambient light, easily integrating 3D composite PC-based optoelectronic devices. The PC-based device's signal-to-noise ratio (SNR) increases dramatically from original 30∼40dB to approximately 60∼70dB. Droplets of ultratrace analytes on the device are identified by fast digital readout within seconds, with detection limits down to 5μL, enabling rapid identification of ultratrace glucose in artificial sweat and diabetes risk. The developed 3D PC-based sensor offers the advantages of small size, low cost and high reliability, paving the way for wider implementation in other portable optoelectronic devices. This article is protected by copyright. All rights reserved.