The Role of Ligands in the Chemical Synthesis and Applications of Inorganic Nanoparticles

Heuer‐Jungemann, Amelie; Feliu, Neus; Bakaimi, Ioanna; Hamaly, Majd A.; Alkilany, Alaaldin M.; Chakraborty, Indranath; Masood, Atif; Casula, Maria Francesca; Κωστοπούλου, Αθανασία; Oh, Eunkeu; Susumu, Kimihiro; Stewart, Michael H.; Medintz, Igor L.; Stratakis, Emmanuel; Parak, Wolfgang J.; Kanaras, Antonios G.

doi:10.1021/acs.chemrev.8b00733

Cited by 758 publications

(742 citation statements)

References 634 publications

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“…Here one has to keep in mind that changes in the ionic strength of the dispersion media will also have an impact on the electrostatic stabilization. Therefore, this parameter will also be investigated, together with surface ligands that have been reported for colloidal stability via steric repulsion, in the near future.…”

Section: Resultsmentioning

confidence: 99%

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Himmelstoß

Hirsch

2019

Part & Part Syst Charact

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Surface capping is an essential component of nanoparticles as it provides access to their outstanding properties in the real world. Upconversion nanoparticles are predominantly interesting for use in biological environments, due to their excellent optical properties such as the conversion of near‐infrared excitation light into emissions in the visible or UV range of the spectrum, high photostability, and the absence of any intermittence. One of the most efficient upconversion nanoparticles, consisting of lanthanide doped NaYF4, suffers from limited stability in aqueous media. This study investigates a set of five types of surface coatings, ranging from small ligands to polymers of different charge and different coordinating groups, on monodisperse 28 ± 0.9 nm sized NaYF4(Yb,Er) nanoparticles modified by a two‐step ligand exchange mediated by NOBF4. Information on the long‐term chemical and colloidal stability for highly diluted aqueous dispersions of these particles is acquired by transmission electron microscopy, dynamic light scattering, and luminescence spectroscopy. The findings are of importance for the development of probes and labels based on upconversion nanoparticles for biological applications.

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Section: Resultsmentioning

confidence: 99%

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Himmelstoß

Hirsch

2019

Part & Part Syst Charact

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“…Although most of the reported procedures offer obvious advantages, they suffer from some drawbacks i.e. the use of high temperatures, expensive metal precursors, use of expensive or toxic catalysts, the use of a large quantity of volatile and toxic organics, formation of by‐products, product contamination and difficulty in catalyst separation from the reaction media and recycling . Therefore, the search to find a new, green, efficient and reusable catalytic system for the synthesis of polyhydroquinoline structural scaffolds is an important challenge for organic‐synthetic chemists in catalysis research.…”

Section: Introductionmentioning

confidence: 99%

Magnetically Recoverable Catalysts: Catalysis in Synthesis of Polyhydroquinolines

Kazemi

Mohammadi

2019

Applied Organom Chemis

147

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Molecules that contain polyhydroquinoline structural scaffolds are N‐containing heterocycles which are of great interest to organic chemists and biologists. Polyhydroquinoline structural scaffolds which are known as calcium channel blockers have emerged as one of the most important class of drugs used for the treatment of cardiovascular and Alzheimer's diseases. Besides, recovery and reusability of catalysts are important issues to be discussed in modern catalysis research especially in organic synthesis. The concept of magnetically recoverable catalysts has been rapidly developed in recent times. Magnetic separation is an efficient strategy for the rapid separation of catalysts from the reaction medium. Also, an alternative to time‐, solvent‐, and energy‐consuming separation techniques. In this review, we focused on the fabrication, surface‐modification and characterization of nanomagnetic materials and their application, as magnetically recoverable catalysts, in the synthesis of polyhydroquinoline structural scaffolds.

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“…As such, several strategies have been implemented that include the use of polymers, surfactants and chelating agents to protect the nanoparticles' surfaces and thereby to confer colloidal stability under variable chemical conditions . In this context, dendrimers have also been explored as templating and stabilizing agents for a wide variety of metal nanoparticles , , . The polyamido(amine) (PAMAM) dendrimer belong to the class of dendrimers that have been extensively used for the preparation of metal nanoparticles, either monometallic or bimetallic systems.…”

Section: Introductionmentioning

confidence: 99%

Dendrimer‐Based Gold Nanostructures for SERS Detection of Pesticides in Water

et al. 2020

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Dendrimers are polymers with well‐defined architectures and tunable chemistry, which make them useful in a number of applications. Herein, the chemistry of poly(amido)amine (PAMAM) dendrimers with different functional groups was explored to produce a variety of plasmonic systems based on Au colloidal nanoparticles. The resulting systems present long‐term colloidal stability and were investigated as sensitive platforms for surface‐enhanced Raman scattering (SERS). The application of these SERS platforms for the detection of water trace pollutants, was explored through the analysis of selected pesticides. Noteworthy, dendrimer coated Au nanoparticles with tunable properties such as size, shape and surface chemistry, were obtained by varying the dendrimer chemical properties. The surface chemistry of PAMAM capped Au colloids was explored in order to produce target selective SERS substrates for pesticide detection, that allowed to reach detection limits down to 10 nm.

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The Role of Ligands in the Chemical Synthesis and Applications of Inorganic Nanoparticles

Cited by 758 publications

References 634 publications

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Magnetically Recoverable Catalysts: Catalysis in Synthesis of Polyhydroquinolines

Dendrimer‐Based Gold Nanostructures for SERS Detection of Pesticides in Water

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The Role of Ligands in the Chemical Synthesis and Applications of Inorganic Nanoparticles

Cited by 758 publications

References 634 publications

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF4‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF4‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Magnetically Recoverable Catalysts: Catalysis in Synthesis of Polyhydroquinolines

Dendrimer‐Based Gold Nanostructures for SERS Detection of Pesticides in Water

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Product

Resources

About

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange

Long‐Term Colloidal and Chemical Stability in Aqueous Media of NaYF₄‐Type Upconversion Nanoparticles Modified by Ligand‐Exchange