Fluorescence-based trace detection of explosives: current state and perspective for ultrasensitive portable technique via plasmonic enhancement
AI Summary
Urgent need for sensitive, fast, inexpensive, portable, mass-producible sensors to overcome limitations of conventional techniques for nitro compound explosives.
Fluorescence-based optical sensors provide real-time, highly sensitive detection with significant miniaturisation potential for field deployment.
Plasmon-enhanced fluorescence via plasmonic nanostructures markedly lowers detection limits, enabling ultrasensitive portable techniques for environmental remediation and humanitarian demining.
Methods Appl Fluoresc. 2026 May 14. doi: 10.1088/2050-6120/ae6e1a. Online ahead of print.
ABSTRACT
Considering the recent global growth of terrorism and widespread environmental contamination caused by the previous military actions and ongoing wars, it is evident that the importance of innovation in trace detection of explosives has increased significantly. Specifically, it is vital to develop sensitive, fast, cheap, portable and mass-producible sensors, which will overcome the drawbacks of conventional techniques used for detecting the most widespread explosives, especially those based on nitro compounds. Recently, various optical sensors have been proposed for the detection of explosives due to their real-time, highly sensitive response with significant miniaturization potential. Among them, fluorescence-based sensors have emerged as a promising technique, which can be further improved by employing the plasmon-enhanced fluorescence phenomenon for achieving lower detection limits, thus providing the ability to detect different analytes at ultra-low concentrations in a portable format. This paper provides a comprehensive overview of the current state of fluorescence-based trace detection of explosives, highlighting key mechanisms, recent developments and innovations. The prospects of plasmon-enhanced fluorescence for developing an ultrasensitive portable technique via enhancement provided by plasmonic nanostructures are also discussed, which is important for pursuing innovations in environmental remediation and humanitarian demining.
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