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Publication DateNanoscale, ISSN 2040-3364, 08/2012, Volume 4, Issue 15, pp. 4301 - 4326
The current status of luminescence nanothermometry is reviewed in detail. Based on the main parameters of luminescence including intensity, bandwidth,...
TEMPERATURE-MEASUREMENT | PHYSICS, APPLIED | HEAT-TRANSFER | RHODAMINE-B | MATERIALS SCIENCE, MULTIDISCIPLINARY | SIZE | NANOSCIENCE & NANOTECHNOLOGY | THERMAL MICROSCOPE | UP-CONVERSION EMISSION | CHEMISTRY, MULTIDISCIPLINARY | QUANTUM DOTS | FLUORESCENCE LIFETIME | THERMOMETRY | ENERGY-TRANSFER | Temperature | Quantum Dots | Semiconductors | Polyethyleneimine - chemistry | Metals, Rare Earth - chemistry | Polyethylene Glycols - chemistry | Polymers - chemistry | Luminescent Measurements | Nanotechnology | Coloring Agents - chemistry
TEMPERATURE-MEASUREMENT | PHYSICS, APPLIED | HEAT-TRANSFER | RHODAMINE-B | MATERIALS SCIENCE, MULTIDISCIPLINARY | SIZE | NANOSCIENCE & NANOTECHNOLOGY | THERMAL MICROSCOPE | UP-CONVERSION EMISSION | CHEMISTRY, MULTIDISCIPLINARY | QUANTUM DOTS | FLUORESCENCE LIFETIME | THERMOMETRY | ENERGY-TRANSFER | Temperature | Quantum Dots | Semiconductors | Polyethyleneimine - chemistry | Metals, Rare Earth - chemistry | Polyethylene Glycols - chemistry | Polymers - chemistry | Luminescent Measurements | Nanotechnology | Coloring Agents - chemistry
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Loading RightsAdvanced Materials, ISSN 0935-9648, 09/2018, Volume 30, Issue 38, pp. 1870286 - n/a
As described by Ryota Kabe, Chihaya Adachi, and Kazuya Jinnai in article number 1800365, greenish‐blue to red and even warm white organic long‐persistent...
energy transfer | organic semiconductors | charge recombination | organic long‐persistent luminescence | charge separation | Dopants | Emitters | Luminescence | Emitters (electron)
energy transfer | organic semiconductors | charge recombination | organic long‐persistent luminescence | charge separation | Dopants | Emitters | Luminescence | Emitters (electron)
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Loading RightsInorganic Chemistry, ISSN 0020-1669, 05/2007, Volume 46, Issue 10, pp. 3960 - 3965
Two lanthanide-organic frameworks were synthesized via hydrothermal methods. Compound 1 ([(Eu,Tb)(C6H8O4)3(H2O)2]•(C10H8N2), orthorhombic, Pbcn, a = 21.925(2)...
NEAR-INFRARED LUMINESCENCE | F-BLOCK | FLUORESCENCE | THERMAL-PROPERTIES | COMPLEXES | CRYSTAL-STRUCTURES | ENERGY-TRANSFER | SOFT ACIDS | COORDINATION POLYMERS | FUNCTIONAL ASSEMBLIES | CHEMISTRY, INORGANIC & NUCLEAR | X-ray crystallography | Analysis | Optical properties | Luminescence | Organometallic compounds | Structure | Observations | Europium
NEAR-INFRARED LUMINESCENCE | F-BLOCK | FLUORESCENCE | THERMAL-PROPERTIES | COMPLEXES | CRYSTAL-STRUCTURES | ENERGY-TRANSFER | SOFT ACIDS | COORDINATION POLYMERS | FUNCTIONAL ASSEMBLIES | CHEMISTRY, INORGANIC & NUCLEAR | X-ray crystallography | Analysis | Optical properties | Luminescence | Organometallic compounds | Structure | Observations | Europium
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Loading RightsChemical Communications: Chem Comm, ISSN 1359-7345, 3/2016, Volume 52, Issue 29, pp. 58 - 595
Luminescent lanthanide complexes display unrivalled spectroscopic properties, which place them in a special category in the luminescent toolbox. Their...
Multiplexing | Spectroscopy | Microscopy | Lanthanides | Mathematical analysis | Cells (biology) | Luminescence | Labels
Multiplexing | Spectroscopy | Microscopy | Lanthanides | Mathematical analysis | Cells (biology) | Luminescence | Labels
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Loading RightsChemical Communications, ISSN 1359-7345, 04/2016, Volume 52, Issue 29, pp. 5080 - 5095
Luminescent lanthanide complexes display unrivalled spectroscopic properties, which place them in a special category in the luminescent toolbox. Their...
NEAR-INFRARED LUMINESCENCE | TIME-RESOLVED FLUORESCENCE | UP-CONVERSION | SOLID-PHASE SYNTHESIS | RESONANCE ENERGY-TRANSFER | PROTEIN-PROTEIN INTERACTIONS | HIGH QUANTUM YIELDS | EUROPIUM COMPLEXES | CHEMISTRY, MULTIDISCIPLINARY | SINGLE-WAVELENGTH EXCITATION | MRI CONTRAST AGENTS | Microscopy - methods | Staining and Labeling - methods | Luminescent Agents - chemistry | Animals | Lanthanoid Series Elements - chemistry | Humans | Luminescence | Models, Molecular | Biosensing Techniques - methods | Luminescent Measurements - methods | Optical Imaging - methods
NEAR-INFRARED LUMINESCENCE | TIME-RESOLVED FLUORESCENCE | UP-CONVERSION | SOLID-PHASE SYNTHESIS | RESONANCE ENERGY-TRANSFER | PROTEIN-PROTEIN INTERACTIONS | HIGH QUANTUM YIELDS | EUROPIUM COMPLEXES | CHEMISTRY, MULTIDISCIPLINARY | SINGLE-WAVELENGTH EXCITATION | MRI CONTRAST AGENTS | Microscopy - methods | Staining and Labeling - methods | Luminescent Agents - chemistry | Animals | Lanthanoid Series Elements - chemistry | Humans | Luminescence | Models, Molecular | Biosensing Techniques - methods | Luminescent Measurements - methods | Optical Imaging - methods
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Loading RightsChemical Society reviews, ISSN 0306-0012, 5/2015, Volume 44, Issue 1, pp. 294 - 2962
Frequency conversion has always been an important topic in optics. Nonlinear optics has traditionally focused on frequency conversion based on nonlinear...
Upconversion | Luminescence | Nanomaterials | Plasmons | Nanostructure | Plasmonics | Excitation | Photonics
Upconversion | Luminescence | Nanomaterials | Plasmons | Nanostructure | Plasmonics | Excitation | Photonics
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Loading RightsAngewandte Chemie International Edition, ISSN 1433-7851, 10/2014, Volume 53, Issue 44, pp. 11702 - 11715
The enthusiasm for research on lanthanide‐doped upconversion nanoparticles is driven by both a fundamental interest in the optical properties of lanthanides...
doping | upconversion | nanoparticles | plasmon | lanthanides | Nanoparticles | Upconversion | Plasmon | Lanthanides | Doping | NEAR-INFRARED LIGHT | WHITE-LIGHT | UPCONVERTING NANOPARTICLES | NANOCRYSTALS | CROSS-SECTION | CHEMISTRY, MULTIDISCIPLINARY | IN-VITRO | FLUORESCENCE | ENHANCEMENT | ENERGY-TRANSFER | EMISSION | Models, Molecular | Lanthanoid Series Elements - analysis | Humans | Lanthanoid Series Elements - adverse effects | Nanoparticles - metabolism | Luminescence | Rare earth metals | Optical properties | Solar energy | Trapping | Imaging | Biological | Conversion
doping | upconversion | nanoparticles | plasmon | lanthanides | Nanoparticles | Upconversion | Plasmon | Lanthanides | Doping | NEAR-INFRARED LIGHT | WHITE-LIGHT | UPCONVERTING NANOPARTICLES | NANOCRYSTALS | CROSS-SECTION | CHEMISTRY, MULTIDISCIPLINARY | IN-VITRO | FLUORESCENCE | ENHANCEMENT | ENERGY-TRANSFER | EMISSION | Models, Molecular | Lanthanoid Series Elements - analysis | Humans | Lanthanoid Series Elements - adverse effects | Nanoparticles - metabolism | Luminescence | Rare earth metals | Optical properties | Solar energy | Trapping | Imaging | Biological | Conversion
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Loading RightsLuminescence, ISSN 1522-7235, 11/2014, Volume 29, Issue 7, pp. 791 - 797
ABSTRACT A novel ternary complex, Tb2L4·L′·(ClO4)6·8H2O, has been synthesized using bis(benzylsulfinyl)methane as the first ligand L and 2,2′‐dipyridyl as the...
luminescence enhancement | luminescence mechanism | phosphorescence | 2,2‐dipyridyl | terbium complex | bis(benzylsulfinyl)methane | Bis(benzylsulfinyl)methane | Luminescence mechanism | Luminescence enhancement | Phosphorescence | 2,2-dipyridyl | Terbium complex | EU3 | SULFOXIDE | BIOCHEMISTRY & MOLECULAR BIOLOGY | LANTHANIDE COMPLEXES | RARE-EARTH COMPLEXES | ELECTROLUMINESCENCE | LIGANDS | ENERGY-TRANSFER | FLUORESCENT PROPERTIES | AROMATIC CARBOXYLIC-ACIDS | Coordination Complexes - chemical synthesis | Terbium - chemistry | Coordination Complexes - chemistry | 2,2'-Dipyridyl - chemistry | Luminescence | Perchlorates - chemistry | Rare earth metals | Infrared | Fluorescence | Emission | Ligands | Spectra | Perchlorates
luminescence enhancement | luminescence mechanism | phosphorescence | 2,2‐dipyridyl | terbium complex | bis(benzylsulfinyl)methane | Bis(benzylsulfinyl)methane | Luminescence mechanism | Luminescence enhancement | Phosphorescence | 2,2-dipyridyl | Terbium complex | EU3 | SULFOXIDE | BIOCHEMISTRY & MOLECULAR BIOLOGY | LANTHANIDE COMPLEXES | RARE-EARTH COMPLEXES | ELECTROLUMINESCENCE | LIGANDS | ENERGY-TRANSFER | FLUORESCENT PROPERTIES | AROMATIC CARBOXYLIC-ACIDS | Coordination Complexes - chemical synthesis | Terbium - chemistry | Coordination Complexes - chemistry | 2,2'-Dipyridyl - chemistry | Luminescence | Perchlorates - chemistry | Rare earth metals | Infrared | Fluorescence | Emission | Ligands | Spectra | Perchlorates
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Loading RightsChemical Society Reviews, ISSN 0306-0012, 01/2017, Volume 46, Issue 1, pp. 275 - 299
Garnets have the general formula of A3B2C3O12 and form a wide range of inorganic compounds, occurring both naturally (gemstones) and synthetically. Their...
Chemistry(all)
Chemistry(all)
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Loading RightsChemical Society Reviews, ISSN 0306-0012, 05/2015, Volume 44, Issue 10, pp. 2940 - 2962
Frequency conversion has always been an important topic in optics. Nonlinear optics has traditionally focused on frequency conversion based on nonlinear...
GOLD NANOPARTICLES | TELLURITE GLASS | DISTANCE DEPENDENCE | FACILE SYNTHESIS | TO-VISIBLE CONVERSION | ER3+ ENERGY-TRANSFER | NANOCRYSTALS | OPTICAL-PROPERTIES | EFFICIENCY | CHEMISTRY, MULTIDISCIPLINARY | NEAR-INFRARED EMISSION
GOLD NANOPARTICLES | TELLURITE GLASS | DISTANCE DEPENDENCE | FACILE SYNTHESIS | TO-VISIBLE CONVERSION | ER3+ ENERGY-TRANSFER | NANOCRYSTALS | OPTICAL-PROPERTIES | EFFICIENCY | CHEMISTRY, MULTIDISCIPLINARY | NEAR-INFRARED EMISSION
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Loading RightsJournal of Alloys and Compounds, ISSN 0925-8388, 10/2018, Volume 767, pp. 16 - 22
The photoluminescence modification of rare earth ions base on the photonic band gap engineering was extensively reported. In this work, the effect of...
Inverse opals | Near infrared luminescence | Cooperative energy transfer | Upconversion luminescence | CELLS | EU3 | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOCRYSTALS | OPTICAL-PROPERTIES | CHEMISTRY, PHYSICAL | NANOPARTICLES | ENHANCEMENT | EMISSION
Inverse opals | Near infrared luminescence | Cooperative energy transfer | Upconversion luminescence | CELLS | EU3 | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOCRYSTALS | OPTICAL-PROPERTIES | CHEMISTRY, PHYSICAL | NANOPARTICLES | ENHANCEMENT | EMISSION
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Loading RightsChemistry – A European Journal, ISSN 0947-6539, 09/2015, Volume 21, Issue 39, pp. 13488 - 13500
This article aims to show the identity of “circularly polarized luminescent active simple organic molecules” as a new concept in organic chemistry due to the...
chromophores | chirality | circularly polarized luminescence | fluorescence | small organic molecules | ENANTIOSELECTIVE SYNTHESIS | COMPLEXES | LIGHT | OPTICAL-ACTIVITY | PHOTOPHYSICAL PROPERTIES | CHEMISTRY, MULTIDISCIPLINARY | DICHROISM | EUROPIUM(III) | ENERGY-TRANSFER | EMISSION | CPL | Luminescence | Organic chemistry | Emittance | Molecular structure | Circularity | Helical | Constraining | Guidelines | Fluorescence | Chromophores | Circularly Polarized Luminescence | Small Organic Molecules | Chirality
chromophores | chirality | circularly polarized luminescence | fluorescence | small organic molecules | ENANTIOSELECTIVE SYNTHESIS | COMPLEXES | LIGHT | OPTICAL-ACTIVITY | PHOTOPHYSICAL PROPERTIES | CHEMISTRY, MULTIDISCIPLINARY | DICHROISM | EUROPIUM(III) | ENERGY-TRANSFER | EMISSION | CPL | Luminescence | Organic chemistry | Emittance | Molecular structure | Circularity | Helical | Constraining | Guidelines | Fluorescence | Chromophores | Circularly Polarized Luminescence | Small Organic Molecules | Chirality
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