Add to ORKGIn this paper we present an organic feedback scheme that merges microfluidics and responsive materials to address several limitations of current microfluidic systems. By using in situ fabrication and by taking advantage of microscale phenomena (e.g., laminar flow, short diffusion times), we have demonstrated feedback control of the output pH in a completely organic system. The system autonomously reg-ulates an output stream at pH 7 under a range of input flow conditions. A single responsive hydrogel component per-forms the functionality of traditional feedback system components. Vertically stacked laminar flow is used to improve the time response of the hydrogel actuator. A star shaped orifice is utilized to improve the flow characteristics...
The forthcoming generation of soft materials will be designed to autonomously adapt to their environ...
The integration of smart stimulus-responsive polymers as functional elements within microfluidic dev...
Stimuli-responsive materials have gained much attention recently as new means for fluid flow control...
To control fluid transport, microfluidic systems often make use of pressure driven flow and pneumati...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.In the last part of the thesi...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
Microfluidics covers the science of manipulating small quantities of fluids using microscale devices...
Abstract: This computational study investigates the sensing and actuating behavior of a pH-sensitive...
The requirement of significant off-chip fluid manipulation using high-cost mechanical components has...
Reversible light-responsive hydrogel valves with response characteristics compatible for microfluidi...
In this paper, we report on the fabrication and testing of a hydrogel-actuated smart microvalve for...
Naturally occurring systems have the ability to self-regulate, which plays a key role in their struc...
Microfluidics is a great enabling technology for biology, biotechnology, chemistry and general life ...
<div><p>Microfluidics is a great enabling technology for biology, biotechnology, chemistry and gener...
A chemical actuator was developed taking advantage of the internal microstructure of a plant stem. S...
The forthcoming generation of soft materials will be designed to autonomously adapt to their environ...
The integration of smart stimulus-responsive polymers as functional elements within microfluidic dev...
Stimuli-responsive materials have gained much attention recently as new means for fluid flow control...
To control fluid transport, microfluidic systems often make use of pressure driven flow and pneumati...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.In the last part of the thesi...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
Microfluidics covers the science of manipulating small quantities of fluids using microscale devices...
Abstract: This computational study investigates the sensing and actuating behavior of a pH-sensitive...
The requirement of significant off-chip fluid manipulation using high-cost mechanical components has...
Reversible light-responsive hydrogel valves with response characteristics compatible for microfluidi...
In this paper, we report on the fabrication and testing of a hydrogel-actuated smart microvalve for...
Naturally occurring systems have the ability to self-regulate, which plays a key role in their struc...
Microfluidics is a great enabling technology for biology, biotechnology, chemistry and general life ...
<div><p>Microfluidics is a great enabling technology for biology, biotechnology, chemistry and gener...
A chemical actuator was developed taking advantage of the internal microstructure of a plant stem. S...
The forthcoming generation of soft materials will be designed to autonomously adapt to their environ...
The integration of smart stimulus-responsive polymers as functional elements within microfluidic dev...
Stimuli-responsive materials have gained much attention recently as new means for fluid flow control...