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HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS

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HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS ( handbook-onphysics-and-chemistry-rare-earths )

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414 Handbook on the Physics and Chemistry of Rare Earths del Rosal, B., Perez-Delgado, A., Misiak, M., Bednarkiewicz, A., Vanetsev, A.S., Orlovskii, Y., Jovanovic ́, D.J., Dramic ́anin, M.D., Rocha, U., Kumar, K.U., Jacinto, C., Navarro, E., Rodr ́ıguez, E.M., Pedroni, M., Speghini, A., Hirata, G.A., Mart ́ın, I.R., Jaque, D., 2015. Neodymium-doped nanoparticles for infrared fluorescence bioimaging: the role of the host. J. Appl. Phys. 118, 143104. Deshpande, V.V., Hsieh, S., Bushmaker, A.W., Bockrath, M., Cronin, S.B., 2009. Spatially resolved temperature measurements of electrically heated carbon nanotubes. Phys. Rev. Lett. 102, 105501. de Silva, A.P., 2011. Molecular logic gate arrays. Chem. Asian J. 6, 750–766. de Silva, A.P., Gunaratne, H.Q.N., Gunnlaugsson, T., Huxley, A.J.M., McCoy, C.P., Rademacher, J.T., Rice, T.E., 1997. Signaling recognition events with fluorescent sensors and switches. Chem. Rev. 97, 1515–1566. de Zea Bermudez, V., Carlos, L.D., Duarte, M.C., Silva, M.M., Silva, C.J.R., Smith, M.J., Assunc ̧a ̃o, M., Alca ́cer, L., 1998. A novel class of luminescent polymers obtained by the sol–gel approach. J. Alloys Compd. 277, 21–26. de Zea Bermudez, V., Carlos, L.D., Alca ́cer, L., 1999. Sol–gel derived urea cross-linked organically modified silicates. 1. Room temperature mid-infrared spectra. Chem. Mater. 11, 569–580. Dong, J., Zink, J.I., 2014. Taking the temperature of the interiors of magnetically heated nanopar- ticles. ACS Nano 8, 5199–5207. Dong, N.N., Pedroni, M., Piccinelli, F., Conti, G., Sbarbati, A., Ram ́ırez-Herna ́ndez, J.E., Maestro, L.M., Iglesias de la Cruz, M.C., Sanz-Rodr ́ıguez, F., Juarranz, A., Chen, F., Vetrone, F., Capobianco, J.A., Sole, J.G., Bettinelli, M., Jaque, D., Speghini, A., 2011. NIR-to-NIR two-photon excited CaF2:Tm3+, Yb3+ nanoparticles: multifunctional nanoprobes for highly penetrating fluorescence bio-imaging. ACS Nano 5, 8665–8671. Dong, B., Cao, B.S., He, Y.Y., Liu, Z., Li, Z.P., Feng, Z.Q., 2012. Temperature sensing and in vivo imaging by molybdenum sensitized visible upconversion luminescence of rare-earth oxides. Adv. Mater. 24, 1987–1993. Donner, J.S., Thompson, S.A., Kreuzer, M.P., Baffou, G., Quidant, R., 2012. Mapping intracellu- lar temperature using green fluorescent protein. Nano Lett. 12, 2107–2111. Dorenbos, P., Dehaas, J.T.M., Visser, R., Vaneijk, C.W.E., Hollander, R.W., 1993. Absolute light yield measurements on BaF2 crystals and the quantum efficiency of several photomultiplier tubes. IEEE Trans. Nucl. Sci. 40, 424–430. dos Santos, P.V., de Araujo, M.T., Gouveia-Neto, A.S., Medeiros Neto, J.A., Sombra, A.S. B., 1998. Optical temperature sensing using upconversion fluorescence emission in Er3+/Yb3+-codoped chalcogenide glass. Appl. Phys. Lett. 73, 578–580. dos Santos, P.V., Vermelho, M.V.D., Gouveia, E.A., de Araujo, M.T., Gouveia-Neto, A.S., Cassanjes, F.C., Ribeiro, S.J.L., Messaddeq, Y., 2001. Efficient energy upconversion emis- sion in Tm3+/Yb3+-codoped TeO2-based optical glasses excited at 1.064 mm. J. Appl. Phys. 90, 6550–6552. Dramic ́anin, M.D., Antic ́, Zˇ., Culubrk, S., Ahrenkiel, S.P., Nedeljkovic, J.M., 2014. Self- referenced luminescence thermometry with Sm3+ doped TiO2 nanoparticles. Nanotechnology 25, 485501. Duarte, M., Martins, E., Baldochi, S.L., Vieira, N.D., Vieira, M.M.M., 1999. De-excitation mechanisms of BaLiF3:Co2+ crystals. Opt. Commun. 159, 221–224. D’Vries, R.F., Alvarez-Garcia, S., Snejko, N., Bausa, L.E., Gutierrez-Puebla, E., de Andres, A., Monge, M.A., 2013. Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphores- cence. J. Mater. Chem. C 1, 6316–6324.

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