HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS

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Lanthanides in Luminescent Thermometry Chapter 281 423 Souza, A.S., Nunes, L.A.O., Silva, I.G.N., Oliveira, F.A.M., Luz, L.L., Brito, H.F., Felinto, M.C.F.C., Ferreira, R.A.S., Ju ́nior, S.A., Carlos, L.D., Malta, O.L., 2016. Highly-sensitive Eu3+ ratio- metric thermometers based on excited state absorption with predictable calibration. Nanoscale 8, 5327–5333. Stalder, M., Bass, M., Chai, B.H.T., 1992. Thermal quenching of fluorescence in chromium-doped fluoride laser crystals. J. Opt. Soc. Am. B 9, 2271–2273. Stanley, S.A., Gagner, J.E., Damanpour, S., Yoshida, M., Dordick, J.S., Friedman, J.M., 2012. Radio-wave heating of iron oxide nanoparticles can regulate plasma glucose in mice. Science 336, 604–608. Stich, M.I.J., Nagl, S., Wolfbeis, O.S., Henne, U., Schaeferling, M., 2008. A dual luminescent sensor material for simultaneous imaging of pressure and temperature on surfaces. Adv. Funct. Mater. 18, 1399–1406. Stich, M.I.J., Fischer, L.H., Wolfbeis, O.S., 2010. Multiple fluorescent chemical sensing and imaging. Chem. Soc. Rev. 39, 3102–3114. Sun, L.N., Yu, J.B., Peng, H.S., Zhang, J.Z., Shi, L.Y., Wolfbeis, O.S., 2010. Temperature- sensitive luminescent nanoparticles and films based on a terbium (III) complex probe. J. Phys. Chem. C 114, 12642–12648. Suzuki, M., Tseeb, V., Oyama, K., Ishiwata, S., 2007. Microscopic detection of thermogenesis in a single HeLa cell. Biophys. J. 92, L46–L48. Takei, Y., Arai, S., Murata, A., Takabayashi, M., Oyama, K., Ishiwata, S., Takeoka, S., Suzuki, M., 2014. A nanoparticle-based ratiometric and self-calibrated fluorescent thermom- eter for single living cells. ACS Nano 8, 198–206. Tao, F., Bernasek, S.L., Yuan, Z., Ying, W.C., Qu, Y., Han, K., Wong, K.T., Bent, S.F., Teplyakov, A.V., Yong, K.S., 2012. Functionalization of Semiconductor Surfaces. Wiley, Hoboken, NJ. Taylor, B.N., Kuyatt, C.E., 1994. Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results. (NIST Technical Note 1297). Tessier, G., Bardoux, M., Boue, C., Fournier, D., 2007a. Back side thermal imaging of integrated circuits at high spatial resolution. Appl. Phys. Lett. 90, 171112. Tessier, G., Bardoux, M., Filloy, C., Boue, C., Fournier, D., 2007b. High resolution thermal imag- ing inside integrated circuits. Sens. Rev. 27, 291–297. Tetienne, J.-P., Lombard, A., Simpson, D.A., Ritchie, C., Lu, J., Mulvaney, P., Hollenberg, L.C., 2016. A scanning nano-spin ensemble microscope for nanoscale magnetic and thermal imag- ing. Nano Lett. 16, 326–333 (arXiv preprint, arXiv:1509.00586). Tian, X., Wei, X., Chen, Y., Duan, C., Yin, M., 2014. Temperature sensor based on ladder-level assisted thermal coupling and thermal-enhanced luminescence in NaYF4:Nd3+. Opt. Express 22, 30333–30345. Tikhomirov, V., Driesen, K., Rodriguez, V., Gredin, P., Mortier, M., Moshchalkov, V., 2009. Optical nanoheater based on the Yb3+-Er3+ co-doped nanoparticles. Opt. Express 17, 11794–11798. Tsuji, T., Yoshida, S., Yoshida, A., Uchiyama, S., 2013. Cationic fluorescent polymeric thermo- meters with the ability to enter yeast and mammalian cells for practical intracellular temper- ature measurements. Anal. Chem. 85, 9815–9823. Uchiyama, S., Matsumura, Y., de Silva, A.P., Iwai, K., 2003. Fluorescent molecular thermometers based on polymers showing temperature-induced phase transitions and labeled with polarity- responsive benzofurazans. Anal. Chem. 75, 5926–5935. Uchiyama, S., de Silva, A.P., Iwai, K., 2006. Luminescent molecular thermometers. J. Chem. Educ. 83, 720–727. Uchiyama, S., Tsuji, T., Ikado, K., Yoshida, A., Kawamoto, K., Hayashi, T., Inada, N., 2015. A cationic fluorescent polymeric thermometer for the ratiometric sensing of intracellular tem- perature. Analyst 140, 4498–4506.

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