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Microtubular structured random lasers as microfluidic channels for multifunctional sensing

Version 2 2025-01-08, 22:11
Version 1 2025-01-08, 22:11
Posted on 2025-01-08 - 22:11
Random lasers with simple structure and low cost properties have been recognized as an ideal analytical platform, which are still challenging for liquid detecting, remaining beset for low sensitivity, complicated operation and large of analytes consumption. Here, inspired by microfluidic sensor, a microtubule structured random laser for multifunctional sensing is demonstrated. The random laser is achieved resorting to the curly PMMA film with gain and scatterers embedded in it. By coupling the high order WGM with weak random scattering mode, coherent random laser with low threshold of 0.62 MW/cm² and high Q factor of 4700 is obtained. The sensing process has been demonstrated based on two kinds of representative analytes of sucrose solution and TiO₂ NPs suspension, which are respond to the variation of gain and scattering. The RL sensor feature with fast detection, ease operation and low cost, which may provide a new approach for their further applications in analytical microfluidic chip and disposable/pocket analytical instruments.

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Optics Letters

AUTHORS (5)

Xiaoyu Shi
Zhe Liu
Jinjiang Zhao
Ning Gao
Tianrui Zhai

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