Add to ORKGNanoparticles exist widely in nature and are objects of study in many scientific disciplines due to their high performance in a wide range of applications. With modern techniques that facilitate creating and shaping of nanoparticles into ever more complex shapes and compositions, characterization of particle properties is essential. Nanoparticles are typically heterogeneous and techniques with single particle resolution are necessary to avoid the ensemble averaging that is otherwise prevalent. Plenty of methods have been developed to characterize single particle properties, but they all have their own restrictions and limitations, and additional methods are still needed to complement existing methods.This thesis is based on two novel method...
A mechanistic understanding of biological function requires a quantitative determination of macromol...
© 2018 The Author(s). Nanoparticles have become new tools for cell biology imaging, sub-cellular sen...
Due to their extremely small size, nanoparticles cannot be analyses by conventional approaches such ...
Studying single catalyst nanoparticles, during reaction, eliminates averaging effects that are an in...
Catalyst activity can depend distinctly on nano -particle size and shape. Therefore, understanding t...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
Heterogeneous catalysis concerns material formulations – catalysts – that can assist a chemical reac...
Biological nanoparticles, such as exosomes and viruses, are responsible for a multitude of important...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
We introduce a nanofluidic mixing device entirely fabricated in glass for the fluorescence detection...
The topic of this thesis is the introduction of two novel methods for using single particle microsco...
Abstract: A major hurdle in the development of next-generation biosensors is the ability detect sin...
Single-molecule motions in the nanofluidic domain are extremely difficult to characterise because of...
Nanoparticles are important catalysts. Understanding their structure-activity correlation is paramou...
We describe here a flow platform for quantifying the number of biomolecules on individual fluorescen...
A mechanistic understanding of biological function requires a quantitative determination of macromol...
© 2018 The Author(s). Nanoparticles have become new tools for cell biology imaging, sub-cellular sen...
Due to their extremely small size, nanoparticles cannot be analyses by conventional approaches such ...
Studying single catalyst nanoparticles, during reaction, eliminates averaging effects that are an in...
Catalyst activity can depend distinctly on nano -particle size and shape. Therefore, understanding t...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
Heterogeneous catalysis concerns material formulations – catalysts – that can assist a chemical reac...
Biological nanoparticles, such as exosomes and viruses, are responsible for a multitude of important...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
We introduce a nanofluidic mixing device entirely fabricated in glass for the fluorescence detection...
The topic of this thesis is the introduction of two novel methods for using single particle microsco...
Abstract: A major hurdle in the development of next-generation biosensors is the ability detect sin...
Single-molecule motions in the nanofluidic domain are extremely difficult to characterise because of...
Nanoparticles are important catalysts. Understanding their structure-activity correlation is paramou...
We describe here a flow platform for quantifying the number of biomolecules on individual fluorescen...
A mechanistic understanding of biological function requires a quantitative determination of macromol...
© 2018 The Author(s). Nanoparticles have become new tools for cell biology imaging, sub-cellular sen...
Due to their extremely small size, nanoparticles cannot be analyses by conventional approaches such ...