Add to ORKGTo achieve multiple functions of microfluidic systems, microvalves are indispensable units to control fluid paths, close/open specific sections, and measure reagent volumes. Although various valves have been developed, and shown good properties on microchips, not only the design but also the fabrication are relatively complex. In this work, a novel liquid nitrogen valve was designed and applied in microfluidic chip for flow control, according to the fast freezing and thawing properties of liquid nitrogen. By dropping liquid nitrogen on microchip surface, fluid in microchannels was frozen, and thus the flow stopped flowing by closing the valve. After heating by an electric blower, the frozen fluid was thawed, and with valve open, fluid began...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...
Laboratory-on-a-chip technologies have received growing interests in last 20 years as a method to mi...
An easy to implement, thermally-actuated, noninvasive method for flow control in microfluidic device...
For a Lab-on-Chip platform for Point-of-Care use, integrated controlling of liquid flow at an afford...
A valve is provided for accurately controlling the flow of cryogenic fluids such as liquid nitrogen....
Abstract Microfluidics has enabled low volume biochemistry reactions to be carried out at the point-...
The ease of fabrication and integration of pneumatic microvalves has enabled extensive miniaturizat...
This paper gives an overview of elastomeric valve- and droplet-based microfluidic systems designed t...
This thesis presents three different liquid valving methods for the centrifugal microfluidic platfor...
We introduce a flow regulating technology that uses trapped air bubbles in a hydrophobic microfluidi...
In this study, a manual micro-valve system (dimension: w × h: 1000 × 50 μm with 8-integrated channel...
Precise control of fluid flow becomes increasingly challenging as systems and\ud instruments are sca...
Microvalve architectures employing mobile polymer seating elements in glass sub-strates are presente...
In microfluidic devices, the integration of micro-sensors, reactors and actuators can result in a po...
Many semiconductor processes such as molecular beam epitaxy, low-pressure chemical vapor deposition,...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...
Laboratory-on-a-chip technologies have received growing interests in last 20 years as a method to mi...
An easy to implement, thermally-actuated, noninvasive method for flow control in microfluidic device...
For a Lab-on-Chip platform for Point-of-Care use, integrated controlling of liquid flow at an afford...
A valve is provided for accurately controlling the flow of cryogenic fluids such as liquid nitrogen....
Abstract Microfluidics has enabled low volume biochemistry reactions to be carried out at the point-...
The ease of fabrication and integration of pneumatic microvalves has enabled extensive miniaturizat...
This paper gives an overview of elastomeric valve- and droplet-based microfluidic systems designed t...
This thesis presents three different liquid valving methods for the centrifugal microfluidic platfor...
We introduce a flow regulating technology that uses trapped air bubbles in a hydrophobic microfluidi...
In this study, a manual micro-valve system (dimension: w × h: 1000 × 50 μm with 8-integrated channel...
Precise control of fluid flow becomes increasingly challenging as systems and\ud instruments are sca...
Microvalve architectures employing mobile polymer seating elements in glass sub-strates are presente...
In microfluidic devices, the integration of micro-sensors, reactors and actuators can result in a po...
Many semiconductor processes such as molecular beam epitaxy, low-pressure chemical vapor deposition,...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2001.Includes...
Laboratory-on-a-chip technologies have received growing interests in last 20 years as a method to mi...
An easy to implement, thermally-actuated, noninvasive method for flow control in microfluidic device...