Journal
DALTON TRANSACTIONS
Volume 50, Issue 4, Pages 1307-1312Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0dt04058d
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Funding
- NSFC of China [21871209, 21571139, 22035003]
- Special Program of Talents Development for Excellent Youth Scholars in Tianjin [TJTZJH-QNBJRC-2-3]
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By ion dilution in the compound, the QTM of Dy-III was suppressed and SIM behavior was enhanced, while the fluorescence emission of 8-hydroxyquinoline was weakened. This method can achieve the dual function of fluorescent thermometers and SIM materials.
In complex [Na-Dy(mu(2)-L)(4)](n)(HL = 8-hydroxyquinoline) (1), the DyL4 units were linked by the Na-I ions to form one-dimensional chains. The chain exhibited slow magnetic relaxation behavior at low temperature, accompanied by obvious quantum tunneling of magnetization (QTM). Very weak fluorescence was detected in 1 due to the mismatch of the state energy between Dy-III and the L ligand. Through the magnetic dilution of diamagnetic Y-III ions, complex [NaDy0.02Y0.98(mu(2)-L)(4)](n) (2) was obtained; in 2 the QTM of Dy-III was suppressed and the single ion magnet (SIM) behavior was enhanced. More interestingly, the fluorescence emission of 8-hydroxyquinoline was lightened by the Y-III ions in 2, whose intensity is linearly correlated with the temperature variation. The examples of dual functional fluorescent thermometers and SIM materials are attained simply by ion dilution, achieving the effect of killing two birds with one stone.
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