Nanothermometry: All-In-One Optical Heater-Thermometer Nanoplatform Operative From 300 to 2000 K Based on Er3+ Emission and Blackbody Radiation (Adv. Mater. 35/2013)
| authors | Debasu, ML; Ananias, D; Pastoriza-Santos, I; Liz-Marzan, LM; Rocha, J; Carlos, LD |
| nationality | International |
| journal | ADVANCED MATERIALS |
| abstract | A nanoplatform accomplishes simultaneous laser-induced heat generation by gold nanoparticles and temperature sensing by (Gd,Yb,Er)2O3 nanorods, presenting considerable potential for hyperthermia and deep-tissue optical imaging. On page 4868, Luis D. Carlos, J. Rocha and co-workers assess the local temperature from the Boltzmann distribution of the Er3+ up-conversion 2H11/2→4|15/2/4S3/2→4|15/2 intensity ratio (300–1050 K) or Planck's law for white-light emission (1200–2000 K). |
| publisher | WILEY-V C H VERLAG GMBH |
| year published | 2013 |
| volume | 25 |
| issue | 35 |
| beginning page | 4817 |
| ending page | 4817 |
| digital object identifier (doi) | 10.1002/adma.201370219 |
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impact metrics
| journal analysis (jcr 2019): |
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| journal impact factor | 27.398 |
| 5 year journal impact factor | 26.444 |
| category normalized journal impact factor percentile | 97.985 |
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