Add to ORKGCoupling between flows and material properties imbues rheological matter with its wide-ranging applicability, hence the excitement for harnessing the rheology of active fluids for which internal structure and continuous energy injection lead to spontaneous flows and complex, out-of-equilibrium dynamics. We propose and demonstrate a convenient, highly tunable method for controlling flow, topology, and composition within active films. Our approach establishes rheological coupling via the indirect presence of fully submersed micropatterned structures within a thin, underlying oil layer. Simulations reveal that micropatterned structures produce effective virtual boundaries within the superjacent active nematic film due to differences in viscous...
Active nematics are orientationally ordered but apolar fluids composed of interacting constituents i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...
Coupling between flows and material properties imbues rheological matter with its wide-ranging appli...
Coupling between flows and material properties imbues rheological matter with its wide-ranging appli...
Active liquid crystals are a new class of soft materials that have recently raised a huge interest. ...
Actively driven, bundled microtubule networks, powered by molecular motors have become a useful fram...
We present an experimental study of a kinesin/tubulin active nematic formed at different oil interfa...
In vitro reconstituted active systems, such as the adenosine triphosphate (ATP)-driven microtubule b...
We provide a minimal model for an active nematic film in contact with both a solid substrate and a p...
Active matter is a growing interdisciplinary field of science that studies the collective motion of ...
Groups of animals, bacterial colonies, cellular tissues and assemblies of subcellular extracts are s...
The formation of emulsions from multiple immiscible fluids is governed by classical concepts such as...
A paradigm for internally driven matter is the active nematic liquid crystal, whereby the equations ...
Active matter embraces systems that self-organize at different length and time scales, often exhibit...
Active nematics are orientationally ordered but apolar fluids composed of interacting constituents i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...
Coupling between flows and material properties imbues rheological matter with its wide-ranging appli...
Coupling between flows and material properties imbues rheological matter with its wide-ranging appli...
Active liquid crystals are a new class of soft materials that have recently raised a huge interest. ...
Actively driven, bundled microtubule networks, powered by molecular motors have become a useful fram...
We present an experimental study of a kinesin/tubulin active nematic formed at different oil interfa...
In vitro reconstituted active systems, such as the adenosine triphosphate (ATP)-driven microtubule b...
We provide a minimal model for an active nematic film in contact with both a solid substrate and a p...
Active matter is a growing interdisciplinary field of science that studies the collective motion of ...
Groups of animals, bacterial colonies, cellular tissues and assemblies of subcellular extracts are s...
The formation of emulsions from multiple immiscible fluids is governed by classical concepts such as...
A paradigm for internally driven matter is the active nematic liquid crystal, whereby the equations ...
Active matter embraces systems that self-organize at different length and time scales, often exhibit...
Active nematics are orientationally ordered but apolar fluids composed of interacting constituents i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...