UID:
almafu_9961089626502883
Format:
1 online resource (379 pages) :
,
illustrations.
ISBN:
9780081020302
,
0081020309
,
9780081020296
,
0081020295
Series Statement:
Woodhead Publishing series in electronic and optical materials
Note:
Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1 - Introduction to Measurements of Temperature -- 1.1 - Why we measure temperature? -- 1.2 - The market share of temperature sensors and thermometers -- 1.3 - Historical background -- 1.4 - Why are novel concepts and methods for measuring temperature needed? -- References -- Chapter 2 - Temperature and Ways of Measuring It -- 2.1 - Introduction -- 2.2 - Temperature -- 2.3 - Primary thermometers -- 2.4 - The International Temperature Scale and the Provisional Low Temperature Scale -- 2.5 - Common thermometers and their classification -- 2.6 - Measurement errors (uncertainties) and performance characteristics of thermometers -- References -- Chapter 3 - Luminescence: The Basics, Methods, and Instrumentation -- 3.1 - Introduction -- 3.2 - Electromagnetic radiation and its interaction with mater -- 3.3 - Luminescence -- 3.4 - Luminescence in solids -- 3.5 - Quantum efficiency of emission: temperature quenching of luminescence -- 3.6 - Types of photoluminescence measurements -- 3.7 - Instrumentation used in photoluminescence measurements -- References -- Chapter 4 - Schemes for Temperature Read-Out From Luminescence -- 4.1 - Introduction -- 4.2 - Temperature sensing from excitation and emission band positions and bandwidths -- 4.3 - Sensing temperature from the intensity of a single emission band -- 4.4 - Ratiometric temperature sensing -- 4.5 - Temperature sensing using decay time -- 4.6 - Temperature sensing based on rise time -- 4.7 - Temperature sensing from luminescence polarization (anisotropy) -- 4.8 The generic luminescence thermometry system -- 4.9 - Static (time-integrated) versus time-resolved methods: pros and cons -- References -- Chapter 5 - Methods of Analysis for Luminescence Thermometry Measurements -- 5.1 - Introduction -- 5.2 - Removal of baseline offset.
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5.3 - Dealing with noise -- 5.4 - Differentiation and integration of spectral data -- 5.5 - Quantification of the features of luminescence spectra -- 5.6 - Evaluation of lifetimes from time-resolved measurements -- 5.7 - Calculating the performance of a luminescence thermometer -- References -- Chapter 6 - Lanthanide and Transition Metal Ion Doped Materials for Luminescence Temperature Sensing -- 6.1 - Introduction -- 6.2 - Characteristics of lanthanide and transition metal ion luminescence centers -- 6.3 - Downshifting, upconverting, scintillating, and quantum-cutting phosphors -- 6.4 - Ways to prepare rare earth and transition metal doped materials -- 6.4.1 - Crystal Growth -- 6.4.2 - Preparation of Powders -- 6.4.2.1 - Processes Involving Solids -- 6.4.2.2 - Processes Involving Liquids-Solution Based -- 6.4.3 - Preparation of Thin Films and Coatings -- 6.4.4 - Glasses and Glass-Ceramics -- 6.5 - Lanthanide ion doped materials for temperature sensing -- 6.5.1 - Temperature Sensing Via Downshifting Emission -- 6.5.2 - Temperature Sensing Via Upconversion Emission -- 6.6 - Transition ion doped materials for temperature sensing -- References -- Chapter 7 - Luminescence Temperature Sensing Using Semiconductor Quantum Dots -- 7.1 - Introduction -- 7.2 - Semiconductor nanostructures and quantum confinement -- 7.3 - Luminescence of quantum dots -- 7.4 - Temperature sensing using various luminescence features of semiconductor quantum dots -- References -- Chapter 8 - Luminescence Temperature Sensing Using Organic Materials -- 8.1 - Introduction -- 8.2 - Dyes and organic pigments -- 8.3 - Dyes incorporated in functional polymers -- 8.4 - Exciplex-type probes -- 8.5 - Discrete metal-organic complexes -- 8.6 - Metal-organic frameworks -- References -- Chapter 9 - Applications of Luminescence Thermometry in Engineering -- 9.1 - Introduction.
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9.2 - Thermal imaging of electronic circuits and electrical machines via luminescence -- 9.3 - Luminescence thermometry of fluid flows -- 9.4 - Thermal and environmental barrier coatings -- 9.5 - Surface temperature measurements using temperature-sensitive paints and phosphor coatings -- References -- Chapter 10 - Biomedical Applications of Luminescence Thermometry -- 10.1 - Introduction -- 10.2 - Optical properties of tissue -- biological windows -- 10.3 - Tissue fluorescence -- 10.4 - Intracellular and intercellular temperature measurements via luminescence -- 10.5 - Using luminescence for measurements of in-tumor temperature during thermal therapy -- 10.6 - Using luminescence thermometry to diagnose ischemia -- References -- Chapter 11 - Temperature Measurements at the Nanoscale -- 11.1 - Introduction -- 11.2 - Methods of nanoscale temperature measurement -- 11.3 - Temperature mapping of microfluidic and nanofluidic systems -- 11.4 - Luminescence thermal imaging in nanoelectronics -- References -- Chapter 12 - Achieving Multifunctionality by Combining Thermometry With Other Luminescence Applications -- 12.1 - Introduction -- 12.2 - Multifunctional and smart materials -- 12.3 - Luminescence sensing of pressure -- 12.4 - Luminescence sensing of an electric field -- 12.5 - Luminescence sensing of a magnetic field -- 12.6 - Luminescence sensing of structural and compositional changes in materials -- 12.7 - Luminescence sensing of chemical and biochemical analytes -- 12.8 - Luminescence biomedical and thermal imaging -- References -- Index -- Back cover.
Language:
English
