Self-assembly processes play a key role in the fabrication of functional nano-structures with widespread application in drug delivery and micro-reactors. In addition to the thermodynamics, the kinetics of the self-assembled nano-structures also play an important role in determining the formed structures. However, as the self-assembly process is often highly heterogeneous, systematic elucidation of the dominant kinetic pathways of self-assembly is challenging. Here, based on mass flow, we developed a new method for the construction of kinetic network models and applied it to identify the dominant kinetic pathways for the self-assembly of star-like block copolymers. We found that the dominant pathways are controlled by two competing kinetic p...
We investigate the kinetics of self-assembly by means of Brownian dynamics simulation based on a ide...
Self-assembly provides an attractive route to functional organic materials, with properties and henc...
Most of the biological polymers that make up our cells and tissues are hierarchically structured. Fo...
Polymer self-assembly is used to form nanomaterials with a wide range of structures. While self-asse...
While the sensitive dependence of the functional characteristics of self-assembled nanofibers on the...
We demonstrate the full kinetic pathways of self-assembly of polymeric amphiphiles into a rich varie...
Predicting the self-assembly kinetics of particles with anisotropic interactions, such as colloidal ...
Self-assembly is a low energy synthesis process, prominent in biological systems, in which smaller b...
The self-assembly of copolymeric vesicles and micelles in micromixers is studied by External Potenti...
While the sensitive dependence of the functional characteristics of self-assembled nanofibers on the...
Amphiphile self-assembly is an essential bottom-up approach of fabricating advanced functional mater...
The mechanisms for nanoparticle self-assembly are often inferred from the morphology of the final na...
We investigate the kinetics of self-assembly by means of Brownian dynamics simulation based on a ide...
Self-assembly provides an attractive route to functional organic materials, with properties and henc...
Most of the biological polymers that make up our cells and tissues are hierarchically structured. Fo...
Polymer self-assembly is used to form nanomaterials with a wide range of structures. While self-asse...
While the sensitive dependence of the functional characteristics of self-assembled nanofibers on the...
We demonstrate the full kinetic pathways of self-assembly of polymeric amphiphiles into a rich varie...
Predicting the self-assembly kinetics of particles with anisotropic interactions, such as colloidal ...
Self-assembly is a low energy synthesis process, prominent in biological systems, in which smaller b...
The self-assembly of copolymeric vesicles and micelles in micromixers is studied by External Potenti...
While the sensitive dependence of the functional characteristics of self-assembled nanofibers on the...
Amphiphile self-assembly is an essential bottom-up approach of fabricating advanced functional mater...
The mechanisms for nanoparticle self-assembly are often inferred from the morphology of the final na...
We investigate the kinetics of self-assembly by means of Brownian dynamics simulation based on a ide...
Self-assembly provides an attractive route to functional organic materials, with properties and henc...
Most of the biological polymers that make up our cells and tissues are hierarchically structured. Fo...