High-Quality ZnS Shells for CdSe Nanoparticles:  Rapid Microwave Synthesis

Ziegler, Jan; Merkulov, Alexei; Grabolle, Markus; Resch‐Genger, Ute; Nann, Thomas

doi:10.1021/la063528b

Cited by 64 publications

(61 citation statements)

References 74 publications

(131 reference statements)

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“…We assumed that the resulting InP nanocrystals had zinc-precursor material bound to the surface, which could be then used in the one-pot shelling procedure. As previously reported, [12] Several two-component silicones were investigated for the composite synthesis, where component A contained silicone monomers and component B a platinum catalyst that induced polymerization. The nanocrystals were added in solution to component A, and the solvent was removed after homogenization (120 8C, 1 mbar, 100 Pa).…”

Section: Communicationmentioning

confidence: 92%

Silica‐Coated InP/ZnS Nanocrystals as Converter Material in White LEDs

Ziegler

Kuçur³

et al. 2008

Advanced Materials

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292

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Section: Communicationmentioning

confidence: 92%

Silica‐Coated InP/ZnS Nanocrystals as Converter Material in White LEDs

Ziegler

Kuçur³

et al. 2008

Advanced Materials

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292

228

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“…From the range of these nanocrystals, QDs are the ones most sensitive to photooxidation and photobleaching, but even these effects can be almost completely suppressed by epitaxical growth of a protective shell to shield the core material for relevant time intervals [80]. Moreover, the inorganic nature of the QDs makes them typically resistant to metabolic degradation in live cells and organism which is beneficial, e.g., for long-term imaging.…”

Section: Thermal and Photochemical Stabilitymentioning

confidence: 99%

“…The size of this phenomenon, that often reveals a dependence on excitation wavelength and is typically most pronounced for UV excitation [136], is expected to depend on the quality of the initial QD surface passivation (i.e., the saturation of surface defects by ligands or a passivating shell), and also on shell quality, thereby principally reflecting the accessibility of the QD core. This can be thus exploited as a screening test for QD quality [80]. In addition, the luminescence quantum yield of QDs can be concentration-dependent [5], thereby yielding concentration-dependent signal fluctuations, that hamper quantification.…”

Section: Reproducibility Quality Assurance and Limitationsmentioning

confidence: 99%

“…This involves the control of nanoparticle surface chemistry, and the establishment of functionalization protocols. A first useful step in this direction would be the design of a reliable and reproducible test for the quality of surface coatings, i.e., the degree of perfection of the surface ligand shell, as this is the most crucial parameter affecting the spectroscopic and toxicity properties of nanoparticles [80]. Eventually, the cytotoxicity of differently functionalized nanoparticles (including typical ligands) should be systematically assessed using previously standardized procedures.…”

Section: Applications Of Nanoparticles: State-of-the-art and Future Tmentioning

confidence: 99%

See 1 more Smart Citation

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

Resch‐Genger

Grabolle

Nitschke

et al. 2010

Advanced Fluorescence Reporters in Chemistry and Biology II

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At the core of photoluminescence techniques are suitable fluorescent labels and reporters, the spectroscopic properties of which control the limit of detection, the dynamic range, and the potential for multiplexing. Many applications including recent developments in intracellular labeling rely on well established molecular chromophores such as small organic dyes or fluorescent proteins. However, one of the most exciting -but also controversial -advances in reporter technology, the emerging development and application of luminescent nanoparticles with unique optical properties, yet complicated surface chemistry paves new roads for fluorescence imaging and sensing as well as for in vitro and in vivo labeling. Here, we compare and evaluate the differences in physico-chemical properties of common fluorophores, focusing on traditional organic dyes and luminescent nanocrystals with size-dependent features. The ultimate goal is to provide a better understanding of the advantages and limitations of both classes of chromophores, facilitate fluorophore choice for users of fluorescence techniques, and address future challenges in the rational design and manipulation of nanoparticulate labels and probes.

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“…Recently, layer-by-layer routes to passivate CdSe successively with CdS and ZnS were independently published by Xie et al [27] and Talapin et al [28]. More recently, Ziegler et al dedicated to establishing methods and tools for quality control of the passivating shell [29].…”

Section: Introductionmentioning

confidence: 99%

Facile and green route to highly luminescent ZnS-shelled CdSe nanocrystals

Zhuang

et al. 2009

Rare Metals

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Highly luminescent CdSe/ZnS nanocrystals were obtained by adapting non-TOP-based synthesis and a subsequent two-phase ZnS shelling procedure: the core CdSe nanocrystals were synthesized in sole solvent paraffin liquid with cadmium oxide, elemental selenium, and oleic acid; the deposition of the ZnS shell was conducted by using zinc stearate in toluene and sodium sulfide in deionized water. The green and low-cost route was proved to be more efficient to constrain the size of core nanocrystals while tuning the growth of shell particles, which results in high quantum yields of CdSe/ZnS nanocrystals. The present route is accessible to laboratories with limited synthetic expertise to create CdSe/ZnS nanocrystals and easily scaled up to industrial applications.

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High-Quality ZnS Shells for CdSe Nanoparticles: Rapid Microwave Synthesis

Cited by 64 publications

References 74 publications

Silica‐Coated InP/ZnS Nanocrystals as Converter Material in White LEDs

Silica‐Coated InP/ZnS Nanocrystals as Converter Material in White LEDs

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

Facile and green route to highly luminescent ZnS-shelled CdSe nanocrystals

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