2024-03-28T18:47:09Zhttps://eprints.lib.hokudai.ac.jp/dspace-oai/requestoai:eprints.lib.hokudai.ac.jp:2115/788782022-11-17T02:08:08Zhdl_2115_20045hdl_2115_139Characteristic Evaluation of Chameleon Luminophore Dispersed in PolymerKasai, MikuSugioka, YosukeYamamoto, MasanoriNagata, TakayukiNonomura, TakuAsai, KeisukeHasegawa, Yasuchikatemperature-sensitive paint (TSP)chameleon luminophoresensitivity characteristicspolymerA temperature-sensitive paint (TSP) using a chameleon luminophore <mml:semantics>[Tb0.99Eu0.01(hfa)3(dpbp)]n</mml:semantics> is proposed. The chameleon luminophore was dispersed in isobutyl methacrylate polymer in a toluene solvent to fix it on a sample coupon. Temperature and pressure sensitivities of the chameleon luminophore-based TSP were measured using a spectrofluorophotometer. The emission for each wavelength was confirmed to be dependent on the temperature and pressure. The temperature and pressure sensitivities of the TSP were 0.81-2.8%/K and 0.08-0.12%/kPa, respectively. Higher temperature sensitivity can be obtained using the ratio of emissions from the two lanthanide ions, <mml:semantics>TbIII</mml:semantics> and <mml:semantics>EuIII</mml:semantics>. The temperature sensitivity when using the ratio of the emission intensities at 616 nm derived from <mml:semantics>EuIII</mml:semantics> and at 545 nm derived from <mml:semantics>TbIII</mml:semantics> was 3.2%/K, which was the highest value in the present study. In addition, the pressure sensitivity for the case using the ratio of the emission intensities at 616 and 545 nm was <mml:semantics>4.8x10-2%</mml:semantics>/kPa. Higher temperature sensitivity and lower pressure sensitivity than that with a single wavelength can be achieved using the ratio of the emission intensities at the two peak wavelengths derived from <mml:semantics>TbIII</mml:semantics> and <mml:semantics>EuIII</mml:semantics>.MDPIJournal Articlehttp://hdl.handle.net/2115/78878Sensors2091152020-05-04enginfo:doi/10.3390/s20092623none