Add to ORKGABSTRACT: This paper presents microfluidic devices that autonomously convert two constant flow inputs into an alternating oscillatory flow output. We accomplish this hardware embedded self-control programming using normally closed membrane valves that have an inlet, an outlet, and a membrane-pressurization chamber connected to a third terminal. Adjustment of threshold opening pressures in these 3-terminal flow switching valves enabled adjustment of oscillation periods to between 57 and 360 s with duty cycles of 0.2−0.5. These values are in relatively good agreement with theoretical values, providing the way for rational design of an even wider range of different waveform oscillations. We also demonstrate the ability to use these oscillators...
BackgroundBiological systems have complicated environmental conditions that vary both spatially and ...
Synthetic and systems biology propose the rational construction and alteration of the molecular netw...
Recent advances in microfluidic devices put a high demand on small, robust and reliable pumps suitab...
This paper presents microfluidic devices that autonomously convert two constant flow inputs into an ...
The ability to elicit distinct duty cycles from the same self-regulating microfluidic oscillator dev...
The ability to elicit distinct duty cycles from the same self-regulating microfluidic oscillator dev...
Self-switching microfluidic circuits that are able to perform biochemical experiments in a parallel ...
Several methods for extending the functionality of a commercially available microfluidic system have...
Frequency references are fundamental to most digital systems, providing the basis for process synchr...
A critical need for enhancing usability and capabilities of microfluidic technologies is the develop...
Microfluidics and other fluid-handling technologies are valuable tools both for biochemical assays a...
ABSTRACT: Understanding how biological systems trans-duce dynamic, soluble chemical cues into physio...
Understanding how biological systems transduce dynamic, soluble chemical cues into physiological pro...
Abstract Microfluidics has enabled low volume biochemistry reactions to be carried out at the point-...
We present a novel design of micropumps and valves driven by osmotic force for point-of-care applica...
BackgroundBiological systems have complicated environmental conditions that vary both spatially and ...
Synthetic and systems biology propose the rational construction and alteration of the molecular netw...
Recent advances in microfluidic devices put a high demand on small, robust and reliable pumps suitab...
This paper presents microfluidic devices that autonomously convert two constant flow inputs into an ...
The ability to elicit distinct duty cycles from the same self-regulating microfluidic oscillator dev...
The ability to elicit distinct duty cycles from the same self-regulating microfluidic oscillator dev...
Self-switching microfluidic circuits that are able to perform biochemical experiments in a parallel ...
Several methods for extending the functionality of a commercially available microfluidic system have...
Frequency references are fundamental to most digital systems, providing the basis for process synchr...
A critical need for enhancing usability and capabilities of microfluidic technologies is the develop...
Microfluidics and other fluid-handling technologies are valuable tools both for biochemical assays a...
ABSTRACT: Understanding how biological systems trans-duce dynamic, soluble chemical cues into physio...
Understanding how biological systems transduce dynamic, soluble chemical cues into physiological pro...
Abstract Microfluidics has enabled low volume biochemistry reactions to be carried out at the point-...
We present a novel design of micropumps and valves driven by osmotic force for point-of-care applica...
BackgroundBiological systems have complicated environmental conditions that vary both spatially and ...
Synthetic and systems biology propose the rational construction and alteration of the molecular netw...
Recent advances in microfluidic devices put a high demand on small, robust and reliable pumps suitab...