1. Microfluidic-assisted assembly of fluorescent self-healing gel particles toward dual-signal sensors.
- Author
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He, Yun-Ya, Liu, Ji-Dong, Cheng, Rui, Liu, Chang, Ye, Hong-Gang, Hao, Lu-Wei, Li, Qing, and Chen, Su
- Subjects
DETECTORS ,QUANTUM dots ,SIGNAL detection ,THREE-dimensional printing - Abstract
Quantum dots (QDs)/gel composites have sparked tremendous interests due to their great potentials in sensors. However, in most cases, these sensors are focused on single signal detection, suffers from a key hurdle of low signal density. Thus, it is highly desirable to develop multi-signal QDs/gel-based sensors. In this work, we constructed dual-signal QDs/gel assemblies by a microfluidic-assisted method, which shows promising application in dual-signal sensors. Typically, self-healing QDs/gel beads with different fluorescent signals were fabricated via microfluidic techniques. In virtue of the microfluidic-assisted self-assembly, various dual-signal assemblies were constructed controllably in the confined channels, where self-healing QDs/gel beads serve as building blocks. As expected, the assemblies exhibit rapid dual-signal detection capability toward organic amines and pH values. In addition, by using self-healing gels as printable materials, the combination of the self-assembly strategy with 3D microfluidic printing allows the generation of diverse responsive dual-signal patterns and structures. The self-assembly of self-healing building blocks not only offers a promising route toward fluorescent dual-signal architectures for advanced sensors, but will also guide the development of 3D printing for controllable fabrication of functional assemblies. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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