A Multi-response Aluminum Metal-organic Frameworks for Fluorescence Sensing of Fe3+, Sr2+, SiO32- and Toluene

A new Aluminum metal-organic frameworks(Al-MOF) based on tricarboxylate ligands(L){L = 2,2',2'-([1,3,5]-triazine-2,4,6-triimino)tribenzoic acid)} has been designed and synthesized. It can be served as a platform of multi-responsive fluorescence sensor for Fe3+, Sr2+ and SiO32- in water, which is mainly due to the significant enhancement effect of these ions on the fluorescence intensity of Al-MOF. Especially, Fe3+ ions are rarely able to induce MOFs fluorescence enhancement. The limit of detection for three kinds of ions is 6.62* 10(-6) M, 5.37* 10(-6) M, 6.85* 10(-10) M respectively. Meanwhile, It can also be used as a multi-response fluorescence probe to detect toluene in DMF solution, limit of detection is 9.16* 10(-3) M respectively. The structure of Al-MOF was characterized by FTIR, H-1 NMR, SEM, TAG, PXRD and element analysis. The PXRD showed that the structure of Al-MOF remained the high water stability and pH stability. The application of water samples and vegetables showed that Al-MOF had high sensitive detection for Fe3+ ions.

Automated summary

A new Aluminum metal-organic frameworks (Al-MOF) based on tricarboxylate ligands has been synthesized, functioning as a multi-responsive fluorescence sensor to detect Fe3+, Sr2+, and SiO32- ions in water, as well as toluene in DMF solution. The structure of Al-MOF remains stable in water and pH conditions, showing high sensitivity in detecting Fe3+ ions in water and vegetable samples.