We use a nonequilibrium variational principle to optimize the steady-state, shear-induced interconversion of self-assembled nanoclusters of DNA-coated colloids. Employing this principle within a stochastic optimization algorithm allows us to discover design strategies for functional materials. We find that far-from-equilibrium shear flow can significantly enhance the flux between specific colloidal states by decoupling trade-offs between stability and reactivity required by systems in equilibrium. For isolated nanoclusters, we find nonequilibrium strategies for amplifying transition rates by coupling a given reaction coordinate to the background shear flow. We also find that shear flow can be made to selectively break detailed balance and m...
Funder: Dutch Research Council (NWO)Colloidal molecules are designed to mimic their molecular analog...
Reliability and predictability in methods that produce pure, consistent, and monodisperse products i...
Living systems, even at the scale of single molecules, are constantly adapting to changing environme...
Using large deviation theory and principles of stochastic optimal control, we show that rare molecul...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Self-assembly refers to a process in which initially disordered systems spontaneously form ordered s...
Colloids that attractively bond to only a few neighbors (e.g., patchy particles) can form equilibriu...
Nanometer-scale, colloidally-stable particles suspended in a fluid can be driven to assemble into a ...
A profoundly fundamental question at the interface between physics and biology remains open: what ar...
The development and use of new materials have significantly shaped the development of society since ...
Immense insight into fundamental processes necessity for the fabrication of nanostructures is gather...
Catalytically active colloids maintain nonequilibrium conditions in which they produce and deplete c...
A methodology that can be efficiently used to synthesize, isolate, and study out?of?equilibrium crys...
Compared to atomistic assemblies with angstrom (Å) length scale, colloidal crystals at nanoscale of...
Immense insight into fundamental processes necessity for the fabrication of nanostructures is gather...
Funder: Dutch Research Council (NWO)Colloidal molecules are designed to mimic their molecular analog...
Reliability and predictability in methods that produce pure, consistent, and monodisperse products i...
Living systems, even at the scale of single molecules, are constantly adapting to changing environme...
Using large deviation theory and principles of stochastic optimal control, we show that rare molecul...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Self-assembly refers to a process in which initially disordered systems spontaneously form ordered s...
Colloids that attractively bond to only a few neighbors (e.g., patchy particles) can form equilibriu...
Nanometer-scale, colloidally-stable particles suspended in a fluid can be driven to assemble into a ...
A profoundly fundamental question at the interface between physics and biology remains open: what ar...
The development and use of new materials have significantly shaped the development of society since ...
Immense insight into fundamental processes necessity for the fabrication of nanostructures is gather...
Catalytically active colloids maintain nonequilibrium conditions in which they produce and deplete c...
A methodology that can be efficiently used to synthesize, isolate, and study out?of?equilibrium crys...
Compared to atomistic assemblies with angstrom (Å) length scale, colloidal crystals at nanoscale of...
Immense insight into fundamental processes necessity for the fabrication of nanostructures is gather...
Funder: Dutch Research Council (NWO)Colloidal molecules are designed to mimic their molecular analog...
Reliability and predictability in methods that produce pure, consistent, and monodisperse products i...
Living systems, even at the scale of single molecules, are constantly adapting to changing environme...