Add to ORKGAbstract: Flow of molecularly ordered fluids, like liquid crystals, is inherently coupled with the average local orientation of the molecules, or the director. The anisotropic coupling—typically absent in isotropic fluids—bestows unique functionalities to the flowing matrix. In this work, we harness this anisotropy to pattern different pathways to tunable fluidic resistance within microfluidic devices. We use a nematic liquid crystalline material flowing in microchannels to demonstrate passive and active modulation of the flow resistance. While appropriate surface anchoring conditions—which imprint distinct fluidic resistances within microchannels under similar hydrodynamic parameters—act as passive cues, an external field, e.g., temperatur...
In this article new results on the preparation of monodisperse particles from a liquid crystalline e...
Active matter is a growing interdisciplinary field of science that studies the collective motion of ...
We numerically and analytically study the flow and nematic order parameter profiles in a microfluidi...
Flow of molecularly ordered fluids, like liquid crystals, is inherently coupled with the average loc...
Living cells sense the mechanical features of their environment and adapt to it by actively remodeli...
We explore the flow of a nematic liquid crystal in microfluidic channels with a rectangular cross se...
A unique feature of nematic liquid crystals is orientational order of molecules that can be controll...
Using experiments and numerical simulations, we demonstrate that the curvature of microscale conduit...
In a previous paper,1we proposed an optofluidic modulator based on peristaltic flow. A microchannel ...
We report the flow behavior of water in microfluidic systems based on a chemically patterned anisotr...
(Received?; revised?; accepted?.- To be entered by editorial office) Understanding the flow of liqui...
The coupling between flow and director orientation of liquid crystals (LCs) has been long utilized t...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
Suspensions of active polar liquid crystalline polymers (APLC) exhibit complex phenomena such as spo...
Active liquid crystals are a new class of soft materials that have recently raised a huge interest. ...
In this article new results on the preparation of monodisperse particles from a liquid crystalline e...
Active matter is a growing interdisciplinary field of science that studies the collective motion of ...
We numerically and analytically study the flow and nematic order parameter profiles in a microfluidi...
Flow of molecularly ordered fluids, like liquid crystals, is inherently coupled with the average loc...
Living cells sense the mechanical features of their environment and adapt to it by actively remodeli...
We explore the flow of a nematic liquid crystal in microfluidic channels with a rectangular cross se...
A unique feature of nematic liquid crystals is orientational order of molecules that can be controll...
Using experiments and numerical simulations, we demonstrate that the curvature of microscale conduit...
In a previous paper,1we proposed an optofluidic modulator based on peristaltic flow. A microchannel ...
We report the flow behavior of water in microfluidic systems based on a chemically patterned anisotr...
(Received?; revised?; accepted?.- To be entered by editorial office) Understanding the flow of liqui...
The coupling between flow and director orientation of liquid crystals (LCs) has been long utilized t...
Liquid crystals are known for their anisotropic characteristics, which lead to a preferred orientati...
Suspensions of active polar liquid crystalline polymers (APLC) exhibit complex phenomena such as spo...
Active liquid crystals are a new class of soft materials that have recently raised a huge interest. ...
In this article new results on the preparation of monodisperse particles from a liquid crystalline e...
Active matter is a growing interdisciplinary field of science that studies the collective motion of ...
We numerically and analytically study the flow and nematic order parameter profiles in a microfluidi...