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Nanoparticle characterization: what to measure?
What to measure? is a key question in nanoscience, and it is not straightforward to address
as different physicochemical properties define a nanoparticle sample. Most prominent …
as different physicochemical properties define a nanoparticle sample. Most prominent …
Using microemulsions: formulation based on knowledge of their mesostructure
Microemulsions, as thermodynamically stable mixtures of oil, water, and surfactant, are
known and have been studied for more than 70 years. However, even today there are still …
known and have been studied for more than 70 years. However, even today there are still …
Advances of microemulsion and its applications for improved oil recovery
Microemulsion, because of its excellent interfacial tension reduction and solubilization
properties, has wide range of applications in the petroleum industry, especially in improved …
properties, has wide range of applications in the petroleum industry, especially in improved …
Absorption and emission of light in red emissive carbon nanodots
The structure–function relationship, especially the origin of absorption and emission of light
in carbon nanodots (CNDs), has baffled scientists. The multilevel complexity arises due to …
in carbon nanodots (CNDs), has baffled scientists. The multilevel complexity arises due to …
Exploration of MOF nanoparticle sizes using various physical characterization methods–is what you measure what you get?
While the size of nanoparticles (NPs) seems to be a concept established in the field of NPs
and is commonly used to characterize them, its definition is not that trivial as different “sizes” …
and is commonly used to characterize them, its definition is not that trivial as different “sizes” …
Progress in microemulsion characterization
Microemulsions are technologically important complex fluids. In many applications, they are
required to accommodate functional additives such as drugs, polymers, and nanoparticles …
required to accommodate functional additives such as drugs, polymers, and nanoparticles …
Fluorescence correlation spectroscopy in colloid and interface science
In the last two decades fluorescence correlation spectroscopy (FCS) has been increasingly
applied to analyze systems and processes relevant to colloid and interface science. The …
applied to analyze systems and processes relevant to colloid and interface science. The …
[HTML][HTML] Tiny, yet impactful: Detection and oxidative stability of very small oil droplets in surfactant-stabilized emulsions
Hypothesis The shelf life of multiphase systems, eg oil-in-water (O/W) emulsions, is severely
limited by physical and/or chemical instabilities, which degrade their texture, macroscopic …
limited by physical and/or chemical instabilities, which degrade their texture, macroscopic …
Fluorescence correlation spectroscopy in polymer science
Fluorescence correlation spectroscopy (FCS) is a well-established technique for studying
dynamic processes and interactions with minimal invasion into the corresponding system …
dynamic processes and interactions with minimal invasion into the corresponding system …
Fluorescence correlation spectroscopy and fluorescence lifetime imaging microscopy for deciphering the morphological evolution of supramolecular self-assembly
The properties and functions of non-covalent interaction-driven fluorescent supramolecular
self-assembly depend greatly on their evolution dynamics. Electron microscopy, atomic force …
self-assembly depend greatly on their evolution dynamics. Electron microscopy, atomic force …