Gain-Based Mechanism for pH Sensing Based on Random Lasing

Michele Gaio; Soraya Carlos Caixeiro; Benedetto Marelli; Fiorenzo Omenetto; Riccardo Sapienza

doi:10.1103/PhysRevApplied.7.034005

Gain-Based Mechanism for pH Sensing Based on Random Lasing

Michele Gaio, Soraya Carlos Caixeiro, Benedetto Marelli, Fiorenzo Omenetto, Riccardo Sapienza

Physics

Tufts University

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Abstract

Here, we investigate the mechanism of a random-lasing-based sensor which shows pH sensitivity exceeding by 2 orders of magnitude that of a conventional fluorescence sensor. We explain the sensing mechanism as related to gain modifications and lasing-threshold nonlinearities. A dispersive diffusive lasing theory matches the experimental results well, and it allows us to predict the optimal sensing conditions and a maximal sensitivity as large as 200 times that of an identical fluorescence-based sensor. The lack of complex alignment and the high sensitivity make this mechanism promising for future biosensing applications.

Original language	English
Article number	034005
Pages (from-to)	034005-1-034005-6
Number of pages	6
Journal	PHYSICAL REVIEW APPLIED
Volume	7
Issue number	3
Early online date	6 Mar 2017
DOIs	https://doi.org/10.1103/PhysRevApplied.7.034005
Publication status	Published - Mar 2017

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Gain-Based Mechanism_GAIO_Published6March2017_GOLD VoR (CC-BY)Final published version, 403 KBLicence: CC BY

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abstract = "Here, we investigate the mechanism of a random-lasing-based sensor which shows pH sensitivity exceeding by 2 orders of magnitude that of a conventional fluorescence sensor. We explain the sensing mechanism as related to gain modifications and lasing-threshold nonlinearities. A dispersive diffusive lasing theory matches the experimental results well, and it allows us to predict the optimal sensing conditions and a maximal sensitivity as large as 200 times that of an identical fluorescence-based sensor. The lack of complex alignment and the high sensitivity make this mechanism promising for future biosensing applications.",

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AB - Here, we investigate the mechanism of a random-lasing-based sensor which shows pH sensitivity exceeding by 2 orders of magnitude that of a conventional fluorescence sensor. We explain the sensing mechanism as related to gain modifications and lasing-threshold nonlinearities. A dispersive diffusive lasing theory matches the experimental results well, and it allows us to predict the optimal sensing conditions and a maximal sensitivity as large as 200 times that of an identical fluorescence-based sensor. The lack of complex alignment and the high sensitivity make this mechanism promising for future biosensing applications.

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Gain-Based Mechanism for pH Sensing Based on Random Lasing

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