Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review
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Temperature is important because it has an effect on even the tiniest elements of daily life and is involved in a broad spectrum of human activities. That is why it is the most commonly measured physical quantity. Traditional temperature measurements encounter difficulties when used in some emerging technologies and environments, such as nanotechnology and biomedicine. The problem may be alleviated using optical techniques, one of which is luminescence thermometry. This paper reviews the state of luminescence thermometry and presents different temperature read-out schemes with an emphasis on those utilizing the downshifting emission of lanthanide-doped metal oxides and salts. The read-out schemes for temperature include those based on measurements of spectral characteristics of luminescence (band positions and shapes, emission intensity and ratio of emission intensities), and those based on measurements of the temporal behavior of luminescence (lifetimes and rise times). This review (w...ith 140 references) gives the basics of the fundamental principles and theory that underlie the methods presented, and describes the methodology for the estimation of their performance. The major part of the text is devoted to those lanthanide-doped metal oxides and salts that are used as temperature probes, and to the comparison of their performance and characteristics.
Кључне речи:
luminescence thermometry / metal oxides / rare earths / temperature / sensor / downshifting emission / phosphorsИзвор:
Methods and Applications in Fluorescence, 2016, 4, 4Финансирање / пројекти:
- Физика аморфних и наноструктурних материјала (RS-MESTD-Basic Research (BR or ON)-171022)
DOI: 10.1088/2050-6120/4/4/042001
ISSN: 2050-6120
PubMed: 28192289
WoS: 000386143300001
Scopus: 2-s2.0-85010370994
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Институција/група
VinčaTY - JOUR AU - Dramićanin, Miroslav PY - 2016 UR - https://vinar.vin.bg.ac.rs/handle/123456789/1288 AB - Temperature is important because it has an effect on even the tiniest elements of daily life and is involved in a broad spectrum of human activities. That is why it is the most commonly measured physical quantity. Traditional temperature measurements encounter difficulties when used in some emerging technologies and environments, such as nanotechnology and biomedicine. The problem may be alleviated using optical techniques, one of which is luminescence thermometry. This paper reviews the state of luminescence thermometry and presents different temperature read-out schemes with an emphasis on those utilizing the downshifting emission of lanthanide-doped metal oxides and salts. The read-out schemes for temperature include those based on measurements of spectral characteristics of luminescence (band positions and shapes, emission intensity and ratio of emission intensities), and those based on measurements of the temporal behavior of luminescence (lifetimes and rise times). This review (with 140 references) gives the basics of the fundamental principles and theory that underlie the methods presented, and describes the methodology for the estimation of their performance. The major part of the text is devoted to those lanthanide-doped metal oxides and salts that are used as temperature probes, and to the comparison of their performance and characteristics. T2 - Methods and Applications in Fluorescence T1 - Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review VL - 4 IS - 4 DO - 10.1088/2050-6120/4/4/042001 ER -
@article{ author = "Dramićanin, Miroslav", year = "2016", abstract = "Temperature is important because it has an effect on even the tiniest elements of daily life and is involved in a broad spectrum of human activities. That is why it is the most commonly measured physical quantity. Traditional temperature measurements encounter difficulties when used in some emerging technologies and environments, such as nanotechnology and biomedicine. The problem may be alleviated using optical techniques, one of which is luminescence thermometry. This paper reviews the state of luminescence thermometry and presents different temperature read-out schemes with an emphasis on those utilizing the downshifting emission of lanthanide-doped metal oxides and salts. The read-out schemes for temperature include those based on measurements of spectral characteristics of luminescence (band positions and shapes, emission intensity and ratio of emission intensities), and those based on measurements of the temporal behavior of luminescence (lifetimes and rise times). This review (with 140 references) gives the basics of the fundamental principles and theory that underlie the methods presented, and describes the methodology for the estimation of their performance. The major part of the text is devoted to those lanthanide-doped metal oxides and salts that are used as temperature probes, and to the comparison of their performance and characteristics.", journal = "Methods and Applications in Fluorescence", title = "Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review", volume = "4", number = "4", doi = "10.1088/2050-6120/4/4/042001" }
Dramićanin, M.. (2016). Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review. in Methods and Applications in Fluorescence, 4(4). https://doi.org/10.1088/2050-6120/4/4/042001
Dramićanin M. Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review. in Methods and Applications in Fluorescence. 2016;4(4). doi:10.1088/2050-6120/4/4/042001 .
Dramićanin, Miroslav, "Sensing temperature via downshifting emissions of lanthanide-doped metal oxides and salts. A review" in Methods and Applications in Fluorescence, 4, no. 4 (2016), https://doi.org/10.1088/2050-6120/4/4/042001 . .