Search results for "dendrimer"

showing 10 items of 131 documents

Dendrimers consisting of stilbene or distyrylbenzene building blocks synthesis and stability

1999

Abstract On the basis of Wittig-Horner reactions and protection group techniques compound 7 for the core and the components 9a-c and 11a-c for the dendrons were prepared and linked in the final step. The convergent synthesis yielded constitutionally and configurationally pure dendrimers ( 2a-c, 2a'-c' ) which consist of distyrylbenzene units. Their thermo-oxidative stability in the presence of air was studied by chemiluminescence and compared to the dendrimers 1 consisting of stilbene units.

ChemistryDendrimerOrganic ChemistryDrug DiscoveryPolymer chemistryConvergent synthesisOrganic chemistryBiochemistry
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Poly(propylene imine) dendrimers functionalized with stilbene or 1,4-distyrylbenzene chromophores

2007

Abstract Two generations of dendritic nanoparticles were prepared, which contain ( E )-stilbene or ( E , E )-1,4-distyrylbenzene chromophores in the 4 or 8 terminal positions of the propylene imine dendrons. The compounds show a highly efficient photoreactivity. On prolonged irradiation all stilbenoid chromophores were destroyed by oligomerization (crosslinking) and the typical absorption and fluorescence of the chromophores disappeared completely.

ChemistryDendrimerOrganic ChemistryDrug DiscoveryPolymer chemistryNanoparticleChromophorePropylene imineStilbenoidAbsorption (chemistry)PhotochemistryBiochemistryFluorescenceTetrahedron
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ChemInform Abstract: Poly(propylene imine) Dendrimers Functionalized with Stilbene or 1,4-Distyrylbenzene Chromophores.

2008

Abstract Two generations of dendritic nanoparticles were prepared, which contain ( E )-stilbene or ( E , E )-1,4-distyrylbenzene chromophores in the 4 or 8 terminal positions of the propylene imine dendrons. The compounds show a highly efficient photoreactivity. On prolonged irradiation all stilbenoid chromophores were destroyed by oligomerization (crosslinking) and the typical absorption and fluorescence of the chromophores disappeared completely.

ChemistryDendrimerPolymer chemistryNanoparticleGeneral MedicineAbsorption (chemistry)ChromophorePropylene imineStilbenoidFluorescenceChemInform
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Effect of cationic polyamidoamine dendrimers on ionic transport through nanochannels

2021

Abstract The effect of polyamidoamine (PAMAM) dendrimers (generations G0–G3) on the ion transport properties of nanochannels (conical and cylindrical) is studied either by surface functionalization or by addition to the electrolyte solution. Surface functionalization with cationic dendrimers lead to inversion of the ion current rectification, indicating the anion selectivity of the modified nanochannels. This anion selectivity increases by immobilizing higher-generation dendrimers, as expected for an increase in the surface density of amino groups. However, compared to PAMAM G2, functionalization with PAMAM G3 results in higher cation and lower anion fluxes. Diffusion experiments of charged…

ChemistryGeneral Chemical EngineeringCationic polymerizationIonic bondingCharge density02 engineering and technologyElectrolyte010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesIonMembraneChemical engineeringDendrimerElectrochemistrySurface modification0210 nano-technologyElectrochimica Acta
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The effect of temperature on the internal dynamics of dansylated POPAM dendrimers

2011

The internal and rotational dynamics of the dansylated poly(propylene amine) dendrimers (POPAM) have been studied by time correlated single photon counting (TCSPC) and molecular dynamics (MD) simulations. The hydrodynamic volumes of the dendrimer generations from G1 to G4 were estimated by fluorescence anisotropy data. Experiments and simulations suggest that the volume and the shape of the dendrimers are temperature dependent. At low temperatures the dendrimer structure becomes more spacious and rigid and back-folding of the individual branches is slowed down. For the G3 and G4 generations the temperature effects are much stronger than for the smaller G1 and G2 generations, where back-fold…

ChemistryGeneral Chemical EngineeringDynamics (mechanics)NanotechnologyGeneral ChemistryPhoton countingSolventMolecular dynamicsChemical physicsDendrimerSurface modificationDENDRIMERSRotational dynamicsta116Fluorescence anisotropyRSC Advances
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Energy transfer rates and pathways of single donor chromophores in a multichromophoric dendrimer built around a central acceptor core.

2004

An artificial light-harvesting dendrimer showing highly efficient electronic excitation energy transfer from four peripheral donors to one central acceptor has been investigated by single-molecule spectroscopy at low temperatures. Confocal imaging in combination with frequency selective excitation spectroscopy gives direct access to energy transfer rates of individual donors and allows the determination of energy transfer pathways within a single multichromophoric aggregate.

ChemistryQuantum yieldGeneral ChemistryChromophorePhotochemistryBiochemistryAcceptorCatalysisFluorescence spectroscopyCore (optical fiber)Colloid and Surface ChemistryDendrimerSpectroscopyExcitationJournal of the American Chemical Society
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Solution processable high band gap hosts based on carbazole functionalized cyclic phosphazene cores for application in organic light‐emitting diodes

2011

A new class of solution processable dendrimers based on cyclic phosphazene (CP) cores have been prepared and used as host materials for blue and green organic light emitting diodes (OLEDs). The dendrimers are prepared in high yield from minimal step reactions, are soluble in common solvents for solution processing, are amorphous, and have excellent thermal properties necessary for application in OLEDs. OLED efficiencies of 10.3 cd/A (4.2 Im/W) and 35.3 cd/A (33.5 Im/W) were achieved using commercially available Flrpic and Ir(mppy) 3 as blue and green phosphorescent emitters, respectively. These efficiencies were 2x higher than control devices prepared using poly(N-vinylcarbazole), the most …

Conductive polymerOrganic electronicsMaterials sciencePolymers and PlasticsCarbazoleElectroluminescenceCondensed Matter PhysicsPhotochemistrychemistry.chemical_compoundchemistryChemical engineeringDendrimerMaterials ChemistryOLEDPhysical and Theoretical ChemistryPhosphorescencePhosphazeneJournal of Polymer Science Part B: Polymer Physics
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Fourfold tetraurea calix[4]arenes--potential cores for the formation of self-assembled dendrimers.

2005

Wide rim tetraurea calix[4]arenes monofunctionalized at the narrow rim by COOH or NH2 have been synthesized in five steps from t-butylcalix[4]arene tripropylether. Their covalent linkage via the narrow rim to a central calix[4]arene fixed in the 1,3-alternate conformation led to pentacalix[4]arenes 9 bearing four tetraurea derivatives in the cone conformation in a flexible tetrahedral arrangement. Their self-assembly via the formation of hydrogen bonded dimeric capsules has been studied under different conditions. A fourfold heterodimerisation of tetrakis-tetraurea derivatives of type 9 with tetratosylurea 10 has been confirmed by 1H NMR-spectroscopy and dynamic light scattering.

Cone conformationCrystallographyDynamic light scatteringCovalent bondChemistryDendrimerOrganic ChemistryPhysical and Theoretical ChemistryBiochemistrySelf assembledOrganicbiomolecular chemistry
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The Unusual Photochemistry of Dendrimers with an Anthracene Core

2000

Core (optical fiber)Anthracenechemistry.chemical_compoundchemistryDendrimerEnergy transferGeneral ChemistryPhotochemistryCatalysisAngewandte Chemie International Edition
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Electronic Excitation Energy Transfer in Multichromophoric Assemblies: A Single Molecule Insight

2009

In recent years, single molecule spectroscopy has provided novel insights into the fundamentals of electronic excitation energy transfer in molecular aggregates. In order of increasing structural complexity, we have studied simple molecular dimers and multichromophoric dendrimers. It will be shown that the combination of frequency-selective single molecule spectroscopy and confocal fluorescence microscopy at 1.4 K is a unique tool to study energy transfer processes in these systems. In particular, from the line widths of single molecule excitation spectra, rate constants of energy transfer can be deduced directly. A detailed analysis shows that, for several cases, the mechanism of energy tr…

Coupling (electronics)Reaction rate constantChemistryChemical physicsDendrimerEnergy flowFluorescence microscopeMoleculeGeneral ChemistryAtomic physicsExcitationLine (formation)Israel Journal of Chemistry
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