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Abstract
To address the issue of poor selectivity in nanotechnology-driven, portable nitroaromatics sensors,
we have coupled a ratiometric fluorescence sensor based on silicon quantum dots and fluorescent
proteins with a colorimetric, enzyme-based sensor. Together, the sensors allow differentiation of
nitroaromatic compounds – specifically, distinguishing acetylcholinergic nerve agents from the
explosive compounds explored herein. The combined system can detect 2,4,6-trinitrotoluene, 2,4-
dinitrotoluene and 4-nitrophenol with micromolar detection limits and affords subsequent
differentiation from the nitro-containing nerve agent paraoxon. This demonstrates the advantage
of merging elements of materials chemistry and biochemistry to devise customized sensors which
can accurately identify hazardous chemical species.
Supplementary materials
Title
Supplementary Information for A Complementary, Silicon Quantum Dot-Enzyme Platform for Selective Nitroaromatics Detection
Description
Silicon quantum dot synthesis and functionalization, experimental details for assembly and
titration of silicon quantum dots and the enzymatic assay, detection limit calculations and values,
silicon quantum dot and fluorescent protein photoluminescence spectra.
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