Add to ORKGA novel micro check valve which has nearly ideal fluidic shunting behaviors is presented. Featuring a parylene-based floating disk, this surface-micromachined check valve ultimately realizes both zero forward cracking pressure and zero reverse leakage in fluidic operations. Two different floating disk designs have been implemented to demonstrate functionality of the microvalve. Experimental data of underwater testing successfully show that in-channel floating-disk valves in both designs have great fluidic performance close to an ideal check valve, except the additional fluidic resistance in the order of 10^(13) N-s/m^5 based on dimensions of the fabricated devices. Their pressure loading limit have been confirmed to be higher t...
In this paper we describe the design, simulation, fabrication and characterization of micro check va...
We present a new microvalve that can be monolithically integrated in centrifugally driven lab-on-a-c...
This paper presents a preliminary study into stiction between parylene C and substrate surfaces for ...
A novel micro check valve which has nearly ideal fluidic shunting behaviors is presented. Featuring...
We present here the first surface-micromachined, normally closed, in-channel, Parylene check valve. ...
We report here a surface micromachined leakage proof Parylene MEMS check valve that has nearly ideal...
A novel self-regulating parylene micro valve is presented in this paper with potential applications ...
This paper presents the world's first surface-micromachined parylene dual-valved microfluidic system...
MEMS check valves with fixed cracking pressures are important in micro-fluidic applications where th...
This paper presents the world’s first in-channel parylene dual-valved microfluidic system for unpowe...
Abstract—This paper presents the world’s first surface-micro-machined parylene dual-valved microflui...
We present here a new surface-micromachined, all-parylene (para-xylylene), in-channel, normally-clos...
In this paper we present a bulk micromachined check valve with very high frequency and extremely low...
In this paper we present a bulk micromachined check valve with very high frequency and extremely low...
Micro-fabricated biocompatible check valves are integral parts of many implantable micro-fluidic dev...
In this paper we describe the design, simulation, fabrication and characterization of micro check va...
We present a new microvalve that can be monolithically integrated in centrifugally driven lab-on-a-c...
This paper presents a preliminary study into stiction between parylene C and substrate surfaces for ...
A novel micro check valve which has nearly ideal fluidic shunting behaviors is presented. Featuring...
We present here the first surface-micromachined, normally closed, in-channel, Parylene check valve. ...
We report here a surface micromachined leakage proof Parylene MEMS check valve that has nearly ideal...
A novel self-regulating parylene micro valve is presented in this paper with potential applications ...
This paper presents the world's first surface-micromachined parylene dual-valved microfluidic system...
MEMS check valves with fixed cracking pressures are important in micro-fluidic applications where th...
This paper presents the world’s first in-channel parylene dual-valved microfluidic system for unpowe...
Abstract—This paper presents the world’s first surface-micro-machined parylene dual-valved microflui...
We present here a new surface-micromachined, all-parylene (para-xylylene), in-channel, normally-clos...
In this paper we present a bulk micromachined check valve with very high frequency and extremely low...
In this paper we present a bulk micromachined check valve with very high frequency and extremely low...
Micro-fabricated biocompatible check valves are integral parts of many implantable micro-fluidic dev...
In this paper we describe the design, simulation, fabrication and characterization of micro check va...
We present a new microvalve that can be monolithically integrated in centrifugally driven lab-on-a-c...
This paper presents a preliminary study into stiction between parylene C and substrate surfaces for ...