Nanocrystals and Nanoparticles Versus Molecular Fluorescent Labels as Reporters for Bioanalysis and the Life Sciences: A Critical Comparison

Resch‐Genger, Ute; Grabolle, Markus; Nitschke, Roland; Nann, Thomas

doi:10.1007/978-3-642-04701-5_1

Cited by 9 publications

(6 citation statements)

References 156 publications

(213 reference statements)

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“…There are many variants in choosing the dye donor-acceptor pair in which two correspondent bands are well separated on the wavelength scale or produce different lifetimes. Meantime, we observe increasing popularity of lanthanide chelates [37] and Quantum Dots [38,39] as FRET donors, which is mainly because of their increased brightness and longer emission lifetimes [40]. If the acceptor is excited not directly but by the energy transferred from the donor, its lifetime increases to that of the donor [41].…”

Section: Fo¨rster Resonance Energy Transfermentioning

confidence: 97%

Comparative Analysis of Fluorescence Reporter Signals Based on Intensity, Anisotropy, Time-Resolution, and Wavelength-Ratiometry

Demchenko

2010

Springer Series on Fluorescence

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The response signal of an immense number of fluorescence reporters with a broad variety of structures and properties can be realized through the observation in changes of a very limited number of fluorescence parameters. They are the variations in intensity, anisotropy (or polarization), lifetime, and the spectral changes that allow wavelength-ratiometric detection. Here, these detection methods are overviewed, and specific demands addressed to fluorescence emitters for optimization of their response are discussed.

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Section: Fo¨rster Resonance Energy Transfermentioning

confidence: 97%

Comparative Analysis of Fluorescence Reporter Signals Based on Intensity, Anisotropy, Time-Resolution, and Wavelength-Ratiometry

Demchenko

2010

Springer Series on Fluorescence

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“…Indeed, their small size and tunable optical characteristics make them suitable dyes for imaging applications in biological systems. 176,177 Fluorescent NPs used for bimodal PET/FLI applications are most of the time functionalized with a BFCA and a targeting vector, both being grafted by covalent bond. Here again, activated forms of BFCA such as isothiocyanate 136,155−158 or N-hydroxysuccinimide 148,149 are used.…”

Section: Nanotoolsmentioning

confidence: 99%

“…Alternatively to the grafting of a fluorescent dye into the NPs, some of them display inherent fluorescence properties like Quantum Dots (QDs) that are also widely used for bimodal application. Indeed, their small size and tunable optical characteristics make them suitable dyes for imaging applications in biological systems. , Fluorescent NPs used for bimodal PET/FLI applications are most of the time functionalized with a BFCA and a targeting vector, both being grafted by covalent bond. Here again, activated forms of BFCA such as isothiocyanate ,− or N -hydroxysuccinimide , are used.…”

Section: Dual Pet/fluorescence Imaging Tools: Variety Of Examplesmentioning

confidence: 99%

PET/Fluorescence Imaging: An Overview of the Chemical Strategies to Build Dual Imaging Tools

et al. 2022

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Molecular imaging is a biomedical research discipline that has quickly emerged to afford the observation, characterization, monitoring, and quantification of biomarkers and biological processes in living organism. It covers a large array of imaging techniques, each of which provides anatomical, functional, or metabolic information. Multimodality, as the combination of two or more of these techniques, has proven to be one of the best options to boost their individual properties, hence offering unprecedented tools for human health. In this review, we will focus on the combination of positron emission tomography and fluorescence imaging from the specific perspective of the chemical synthesis of dual imaging agents. Based on a detailed analysis of the literature, this review aims at giving a comprehensive overview of the chemical strategies implemented to build adequate imaging tools considering radiohalogens and radiometals as positron emitters, fluorescent dyes mostly emitting in the NIR window and all types of targeting vectors.

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“…The latter equals the ratio of the number of emitted and absorbed photons, providing the conversion efficiency of absorbed into emitted photons. , From the material or sample side, the size of the measurable fluorescence signal is determined by the product of the luminophore’s absorption coefficient or absorption cross section at the excitation wavelength and Φ f , termed brightness . Therefore, Φ f is frequently used to select optimum emitters for applications, e.g., in medical diagnostics, solid-state lighting, and converter materials for light-emitting diodes (LEDs) and solar concentrators. ,,− Also, Φ f measurements are an essential part of photophysical and mechanistic studies and provide the basis for the design of next-generation functional luminescent materials. This underlines the importance of reliable and reproducible Φ f measurements for the scientific community, manufacturers, and users of commercial luminescent materials, as well as international standardization organizations like the International Electrotechnical Commission (IEC).…”

Section: Introductionmentioning

confidence: 99%

Interlaboratory Comparison on Absolute Photoluminescence Quantum Yield Measurements of Solid Light Converting Phosphors with Three Commercial Integrating Sphere Setups

Fiedler,

Frenzel,

Würth

et al. 2024

Anal. Chem.

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Scattering luminescent materials dispersed in liquid and solid matrices and luminescent powders are increasingly relevant for fundamental research and industry. Examples are luminescent nano- and microparticles and phosphors of different compositions in various matrices or incorporated into ceramics with applications in energy conversion, solid-state lighting, medical diagnostics, and security barcoding. The key parameter to characterize the performance of these materials is the photoluminescence/fluorescence quantum yield (Φf), i.e., the number of emitted photons per number of absorbed photons. To identify and quantify the sources of uncertainty of absolute measurements of Φf of scattering samples, the first interlaboratory comparison (ILC) of three laboratories from academia and industry was performed by following identical measurement protocols. Thereby, two types of commercial stand-alone integrating sphere setups with different illumination and detection geometries were utilized for measuring the Φf of transparent and scattering dye solutions and solid phosphors, namely, YAG:Ce optoceramics of varying surface roughness, used as converter materials for blue light emitting diodes. Special emphasis was dedicated to the influence of the measurement geometry, the optical properties of the blank utilized to determine the number of photons of the incident excitation light absorbed by the sample, and the sample-specific surface roughness. While the Φf values of the liquid samples matched between instruments, Φf measurements of the optoceramics with different blanks revealed substantial differences. The ILC results underline the importance of the measurement geometry, sample position, and blank for reliable Φf data of scattering the YAG:Ce optoceramics, with the blank’s optical properties accounting for uncertainties exceeding 20%.

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Nanocrystals and Nanoparticles Versus Molecular Fluorescent Labels as Reporters for Bioanalysis and the Life Sciences: A Critical Comparison

Cited by 9 publications

References 156 publications

Comparative Analysis of Fluorescence Reporter Signals Based on Intensity, Anisotropy, Time-Resolution, and Wavelength-Ratiometry

Comparative Analysis of Fluorescence Reporter Signals Based on Intensity, Anisotropy, Time-Resolution, and Wavelength-Ratiometry

PET/Fluorescence Imaging: An Overview of the Chemical Strategies to Build Dual Imaging Tools

Interlaboratory Comparison on Absolute Photoluminescence Quantum Yield Measurements of Solid Light Converting Phosphors with Three Commercial Integrating Sphere Setups

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