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- 2012 (2) (entfernen)
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- Nanoparticles (2) (entfernen)
Synthesis and characterisation of highly fluorescent core-shell nanoparticles based on Alexa dyes
(2012)
Current and future developments in the
emerging field of nanobiotechnology are closely
linked to the rational design of novel fluorescent
nanomaterials, e.g. for biosensing and imaging applications.
Here, the synthesis of bright near infrared
(NIR)-emissive nanoparticles based on the grafting
of silica nanoparticles (SNPs) with 3-aminopropyl
triethoxysilane (APTES) followed by covalent attachment
of Alexa dyes and their subsequent shielding by an
additional silica shell are presented. These nanoparticles
were investigated by dynamic light scattering (DLS),
transmission electron microscopy (TEM) and fluorescence
spectroscopy. TEM studies revealed the monodispersity
of the initially prepared and fluorophorelabelled
silica particles and the subsequent formation of
raspberry-like structures after addition of a silica
precursor.Measurements of absolute fluorescence quantum
yields of these scattering particle suspensions with
an integrating sphere setup demonstrated the influence
of dye labelling density-dependent fluorophore aggregation
on the signaling behaviour of such nanoparticles.
The tribological properties of nanostructured surface films formed during dry sliding, for example during
automotive braking, were determined by modelling using the method of movable cellular automata.
Starting from a basic model structure, consisting of magnetite with 13% graphite inclusions, the impact of
additional soft and hard particles of different size and volume fraction was studied systematically. It was
revealed that agglomerates of soft particles decomposed and finally mixed with the oxide in the same
way as single nanoparticles. On the other hand, agglomerates of hard particles mixed with the other
components without decomposing. Whereas increasing the amount of soft components in the third body
lowered the coefficient of friction, the opposite occurred with the hard particles. The boundary conditions
for obtaining smooth sliding conditions with minor fluctuations between friction forces at successive time
steps could be defined. In addition to features of the nanostructure, the applied normal pressure
impacted modelling results. Within the parameter range of smooth sliding behaviour, increasing pressure
induced thicker granular interface layers, which lead to a slight decrease of the coefficient of friction.
Changing the amount of soft or hard particles did not change this pressure dependency but only the
friction level.