Colloidal self-assembly-the spontaneous organization of colloids into ordered structures-has been considered key to produce next-generation materials. However, the present-day staggering variety of colloidal building blocks and the limitless number of thermodynamic conditions make a systematic exploration intractable. The true challenge in this field is to turn this logic around and to develop a robust, versatile algorithm to inverse design colloids that self-assemble into a target structure. Here, we introduce a generic inverse design method to efficiently reverse-engineer crystals, quasicrystals, and liquid crystals by targeting their diffraction patterns. Our algorithm relies on the synergetic use of an evolutionary strategy for paramete...
In conventional research, colloidal particles grafted with single-stranded DNA are allowed to self-a...
Nanometer-scale, colloidally-stable particles suspended in a fluid can be driven to assemble into a ...
Globally ordered colloidal crystal lattices have broad utility in a wide range of optical and cataly...
Colloidal self-assembly-the spontaneous organization of colloids into ordered structures-has been co...
Self-assembly refers to a process in which initially disordered systems spontaneously form ordered s...
An overwhelming diversity of colloidal building blocks with distinct sizes, materials and tunable in...
We study the inverse problem of tuning interaction parameters between charged colloidal particles in...
The ability to produce particles on the nano-scale that self-assemble into soft materials with speci...
Autonomous materials discovery with desired properties is one of the ultimate goals for materials sc...
The development and use of new materials have significantly shaped the development of society since ...
One of the fundamental goals of nanotechnology is to exploit selective and directional interactions ...
Colloidal systems consist of microscopic particles — called colloids — that are dispersed in a solve...
Advances in synthesizing colloidal nanoparticles with tailored interactions through surface modifica...
One of the fundamental goals of nanotechnology is to exploit selective and directional interactions ...
textIn this thesis, we study the problem of what microscopic thermodynamic driving forces can stabil...
In conventional research, colloidal particles grafted with single-stranded DNA are allowed to self-a...
Nanometer-scale, colloidally-stable particles suspended in a fluid can be driven to assemble into a ...
Globally ordered colloidal crystal lattices have broad utility in a wide range of optical and cataly...
Colloidal self-assembly-the spontaneous organization of colloids into ordered structures-has been co...
Self-assembly refers to a process in which initially disordered systems spontaneously form ordered s...
An overwhelming diversity of colloidal building blocks with distinct sizes, materials and tunable in...
We study the inverse problem of tuning interaction parameters between charged colloidal particles in...
The ability to produce particles on the nano-scale that self-assemble into soft materials with speci...
Autonomous materials discovery with desired properties is one of the ultimate goals for materials sc...
The development and use of new materials have significantly shaped the development of society since ...
One of the fundamental goals of nanotechnology is to exploit selective and directional interactions ...
Colloidal systems consist of microscopic particles — called colloids — that are dispersed in a solve...
Advances in synthesizing colloidal nanoparticles with tailored interactions through surface modifica...
One of the fundamental goals of nanotechnology is to exploit selective and directional interactions ...
textIn this thesis, we study the problem of what microscopic thermodynamic driving forces can stabil...
In conventional research, colloidal particles grafted with single-stranded DNA are allowed to self-a...
Nanometer-scale, colloidally-stable particles suspended in a fluid can be driven to assemble into a ...
Globally ordered colloidal crystal lattices have broad utility in a wide range of optical and cataly...