ChemComm
Communication
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of our knowledge, MOF materials which can detect the tem-
perature changes with such excellent linear dependencies are
rather rare.12a The excellent linear relationship between lumines-
cence intensities and temperature enables Zn–TDPAT to act as an
excellent luminescent thermometer at this temperature range.
Such new MOF luminescent thermometers12 have distinct
advantages over other conventional thermometers because of
their fast response, high sensitivity, noninvasive operation, and
inertness to strong electric or magnetic fields.
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In summary, a new dual functional luminescent MOF sensor
Zn–TDPAT has been successfully designed and synthesized by
the solvothermal method. It exhibits stable luminescence and
high quantum yield in the solid state at room temperature. This
dual functional luminescent MOF sensor represents a signifi-
cant step forward in detecting the concentration of NB and
temperature change due to excellent linear correlation between
luminescence intensity and NB concentration/temperature.
These results indicate that Zn–TDPAT can be applied as a potential
dual functional luminescent sensing material for quantitatively
detecting NB concentration and temperature.
This work was supported by the Foundation of the National
Natural Science Foundation of China (No. 20971054, 90922034
and 21131002), Specialized Research Fund for the Doctoral
Program of Higher Education (No. 20110061110015), National
High Technology Research and Develop Program (863 program)
of China (No. 2013AA031702), China Postdoctoral Science
Foundation (No. 2011M500599) and Special Funding of China
Postdoctoral Science Foundation (No. 2012T5068).
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c
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Chem. Commun.