Add to ORKGA novel approach that allows control of flow in microfluidic channels with unsurpassed performance using light is described. Valve structures have been created using photoresponsive hydrogels based on spiropyran-functionalised pNIPAAm hydrogels photopolymerised around pillar structures within the channels. Valve actuation is controlled from outside the fluidic system using externally located LEDs. Highly precise and accurate flow rates can be selected by passing real-time flow rate measurements into a PID algorithm. The optimised algorithm also minimises overshoot of the selected flow rate, eliminates flow rate drift, and improves the system response time. In addition to the dramatic improvements in flow rate control, the set up enables the...
Hydrogels are a class of polymeric materials, which swell upon hydration. Hydrogels have been used i...
In microfluidics, valves and pumps that can combine specifications like precise flow control, provis...
Integration of stimuli-responsive materials into microfluidic systems provides a means to locally ma...
Herein we demonstrate remarkable control of flow within fluidic channels using photo-actuated hydrog...
Herein we demonstrate remarkable control of flow within fluidic channels using photo-actuated hydrog...
A method for microfluidic flow control based upon polymer hydrogel valves with rapid and reversible ...
This paper presents the synthesis, characterization and micro-valve actuation in a micro-fluidic dev...
We present the fabrication, characterisation and performance of four novel ionic liquid polymer gels...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
While the microfluidic device itself may be small, often the equipment required to control fluidics ...
We present the fabrication, characterization and performance as a micro-valve of four novel material...
Despite spectacular progress in microfluidics, small-scale liquid manipulation, with few exceptions,...
Hydrogels are a class of polymeric materials, which swell upon hydration. Hydrogels have been used i...
In microfluidics, valves and pumps that can combine specifications like precise flow control, provis...
Integration of stimuli-responsive materials into microfluidic systems provides a means to locally ma...
Herein we demonstrate remarkable control of flow within fluidic channels using photo-actuated hydrog...
Herein we demonstrate remarkable control of flow within fluidic channels using photo-actuated hydrog...
A method for microfluidic flow control based upon polymer hydrogel valves with rapid and reversible ...
This paper presents the synthesis, characterization and micro-valve actuation in a micro-fluidic dev...
We present the fabrication, characterisation and performance of four novel ionic liquid polymer gels...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
While the microfluidic device itself may be small, often the equipment required to control fluidics ...
We present the fabrication, characterization and performance as a micro-valve of four novel material...
Despite spectacular progress in microfluidics, small-scale liquid manipulation, with few exceptions,...
Hydrogels are a class of polymeric materials, which swell upon hydration. Hydrogels have been used i...
In microfluidics, valves and pumps that can combine specifications like precise flow control, provis...
Integration of stimuli-responsive materials into microfluidic systems provides a means to locally ma...