Dual Minimization of Spectrum Overlap for High-Sensitivity, High-Temperature Sensing.
Xiaoheng Xu, Ke Shen, Xuankang Zhang, Yujian Liu, Yan Qian, Quli Fan
Abstract
Open AccessMinimizing the spectrum overlaps of energy transfer (ET) is necessary but not sufficient for achieving high-sensitivity film thermosensing. Herein we have designed two blue emitters of DBA-BPAc and Z-DBABH exhibiting blue and bluish-green emissions, respectively, to hybridize with the red-emitting Ir(MDQ)2(acac). Compared with Z-DBABH, DBA-BPAc shows a larger spectrum overlap of ET and a relatively smaller discrepancy in fluorescence thermal decay, while its emission spectrum displays a much smaller overlap with that of Ir(MDQ)2(acac). The dual minimization of spectrum overlap of ET and emissions results in its superior ratiometric film thermosensing of the DBA-BPAc film in wide-range and high-temperature regions. The DBA-BPAc/Ir(MDQ)2(acac) film exhibits a maximum relative sensitivity (Sr) of 3.36% °C-1 at 166 °C, exceeding 0.43% °C-1 in 50-265 °C. In comparison, the Z-DBABH/Ir(MDQ)2(acac) system displays a reliable but relatively lower performance, with a maximum Sr of 1.92% °C-1 (at 300 °C). The temperature resolution remains below 2.06 °C throughout the entire temperature range (20-300 °C), achieving a best value of 0.60 °C at 180 °C. Notably, both films display distinct naked-eye color transitions with temperature changes, enabling multi-level anti-counterfeiting applications. This work provides new insights for designing high-performance thermometers.