Self-assembly (SA) is the process in which a system’s components—be it molecules, polymers, colloids, or macroscopic particles—organize into ordered and/or functional structures without human intervention. The main challenge in SA research is the ability to ‘‘program’ ’ the properties of the individual pieces such that they organize into a desired structure. Although a general strategy for doing so is still elusive, heuristic rules can be formulated that guide design of SA under various conditions and thermodynamic constraints. This Review examines SA in both the equilibrium and non-equilibrium/ dynamic systems and discusses different SA modalities: energy driven, entropy-driven, templated, and field-directed. Non-equilibrium SA is discusse...
Life is a non-equilibrium state of matter maintained at the expense of energy. Nature uses predomina...
Self-assembty is the autonomous organization of components into patterns or structures without human...
The self-assembly of structures with "addressable complexity", where every component is distinct and...
Self-assembly (SA) is the process in which a system's components-be it molecules, polymers, col...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Living creatures exists for an important part out of soft material, such as skin, organs and cells, ...
Self-assembled systems formed of micelles or vesicles have frequently been discussed as model system...
Self-assembly can be loosely defined as the emergence of order in an initially disordered system by ...
With technological advancement comes a growing interest in complex structures on the nano-scale. We ...
Put the different parts of a car in a big box, and shake the whole, will you get a car? This image i...
The self-assembly of structured particles into monodisperse clusters is a challenge on the nano-, mi...
International audienceOver the past decades, self-assembly has revived the fascination for spontaneo...
Molecular self-assembly has been realized as a powerful approach to control the organization of mate...
The use of self-assembly has proven to be a powerful approach to create smart and functional materia...
Evaporation-Induced Self-Assembly: Nanostructures made easy Self-Assembly – Living systems provide u...
Life is a non-equilibrium state of matter maintained at the expense of energy. Nature uses predomina...
Self-assembty is the autonomous organization of components into patterns or structures without human...
The self-assembly of structures with "addressable complexity", where every component is distinct and...
Self-assembly (SA) is the process in which a system's components-be it molecules, polymers, col...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Living creatures exists for an important part out of soft material, such as skin, organs and cells, ...
Self-assembled systems formed of micelles or vesicles have frequently been discussed as model system...
Self-assembly can be loosely defined as the emergence of order in an initially disordered system by ...
With technological advancement comes a growing interest in complex structures on the nano-scale. We ...
Put the different parts of a car in a big box, and shake the whole, will you get a car? This image i...
The self-assembly of structured particles into monodisperse clusters is a challenge on the nano-, mi...
International audienceOver the past decades, self-assembly has revived the fascination for spontaneo...
Molecular self-assembly has been realized as a powerful approach to control the organization of mate...
The use of self-assembly has proven to be a powerful approach to create smart and functional materia...
Evaporation-Induced Self-Assembly: Nanostructures made easy Self-Assembly – Living systems provide u...
Life is a non-equilibrium state of matter maintained at the expense of energy. Nature uses predomina...
Self-assembty is the autonomous organization of components into patterns or structures without human...
The self-assembly of structures with "addressable complexity", where every component is distinct and...