Molecularly Engineered Fluorescent Magnetic Microrobots for Sensing High‐Energy Nitroaromatic Explosives in Highly Acidic Aqueous Environments
Nikhil Thekkedath Madhu, N. Senthilnathan, Martin Pumera

TL;DR
Scientists created tiny magnetic robots that can detect explosives in highly acidic environments by using a fluorescent sensing mechanism.
Contribution
The novel contribution is the development of magneto-fluorescent microrobots for selective explosive sensing in harsh acidic conditions.
Findings
Microrobots use fluorescence quenching triggered by picric acid interaction for detection.
Hydrogen bonding and charge-transfer interactions with picric acid form water-soluble picrate complexes.
Testing in microfluidic channels confirmed the microrobots' sensing ability in confined and hazardous areas.
Abstract
Among various analytical sensing approaches currently in use, fluorescence sensing is known for its high sensitivity, rapid response, and applicability in monitoring a wide range of target molecules. Pairing an appropriate navigation system with a fluorescent molecule that can carry it to inaccessible or hard‐to‐reach environments can pave the way for remote and selective sensing applications. Herein, we design magnetic nanoparticles embedded with fluorescent material to form magneto‐fluorescent, precisely navigable microrobots for sensing high‐energy explosive compounds in acidic aqueous systems. Magnetic guidance via Helmholtz coils provides dynamic navigational control to direct the microrobots to specific regions of interest using externally applied magnetic fields. Upon specific interaction with picric acid, the sensing mechanism is triggered via fluorescence quenching (“on‐off”…
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Taxonomy
TopicsMicro and Nano Robotics · Characterization and Applications of Magnetic Nanoparticles · Mechanical and Optical Resonators
