Energetic Materials Frontiers (Dec 2022)

AIEgen-based metal-organic frameworks as sensing “toolkit” for identification and analysis of energetic compounds

  • Long-yi Zhu,
  • Bin Zhu,
  • Ying Wan,
  • Sheng-yuan Deng,
  • Zhang-dong Yu,
  • Chong Zhang,
  • Jun Luo

Journal volume & issue
Vol. 3, no. 4
pp. 257 – 265

Abstract

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The identification and analysis of energetic compounds are important technology in the field of national defence and environmental monitoring. However, as the rapid development of high-energy density materials, designing universal detection strategy for energetic compounds and their composites is still challenging. Herein, we construct a suite of AIEgen-based metal-organic frameworks (MOFs) as the sensing “toolkit” for discriminating four types of energetic compounds, including nitroaromatics, nitrogen-rich heterocycles, nitramine and nitroenamine. Through manipulating the structure of linker and coordination patterns of MOFs scaffold, diversified fluorescence responses can be obtained to simultaneously probe the fluorescence quenching and competitive binding abilities of different energetic compounds in aqueous systems. The “toolkit” sensor array with fluorescence pattern recognition could successfully discriminate seven iconic energetic compounds by principal component analysis. Further performance studies show that the heterogenous materials of energetic compounds can be quantitatively analyzed with linear relationship between stoichiometries and principal component values. The composites from different types of energetic compounds are rapidly identified via AIE MOF-based logic operations. The resulting sensing “toolkit” provides a new avenue for designing olfactory-mimic sensing system.

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