Add to ORKGMicrofluid systems are mainly constructed by silicon-micromechanical techniques. The present study gives an overview on the potentials of microfluid systems in medicine, biochemistry, chemistry, environmental measuring practice, mechanical engineering and electronics. A detailed description is given on electromechanical components (micropumps, microvalves, fluid components, system control) and on microfluid systems for chemical analysis (micromachined chemo-and biosensors based on miniaturized transducers, flow injection analysis, miniaturized total chemical analysis systems, chromatographical methods). (WEN)SIGLEAvailable from TIB Hannover: RO 3532(11) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekBund...
Microfluidic devices have shown tremendous promise as miniature lab-on-a-chip platforms that are cap...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...
A central focus of this research is the development of microfluidic devices for manipulating single ...
Micro fluidics is a young discipline. During its beginning, it was mainly an academic field in where...
Microfluidic chips are becoming the new paradigm for chemical processing and analysis in the laborat...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
This project was dedicated to the development of a dosing device which combines micromechanical sili...
A modular planar concept for fluid handling microsystems is presented. The concept is based on a pla...
In this contribution three aspects of miniaturized total analysis systems (µTAS) are described and d...
The objectives of the proposed research project are: To develop new pumping devices for chemical and...
During the last decade, an increasing amount of pocket-size chemistry equipment based on the so-call...
‘Lab on a chip’ refers to devices and methods for controlling and manipulating fluid flows at micro ...
A new concept for miniaturised analysis systems, based on a modular assembly of silicon system compo...
In this publication a summary of the research on micropumps and microfluid components for mu mTAS ap...
Flow injection analysis systems are often used to enhance the performance of chemical sensors. To re...
Microfluidic devices have shown tremendous promise as miniature lab-on-a-chip platforms that are cap...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...
A central focus of this research is the development of microfluidic devices for manipulating single ...
Micro fluidics is a young discipline. During its beginning, it was mainly an academic field in where...
Microfluidic chips are becoming the new paradigm for chemical processing and analysis in the laborat...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
This project was dedicated to the development of a dosing device which combines micromechanical sili...
A modular planar concept for fluid handling microsystems is presented. The concept is based on a pla...
In this contribution three aspects of miniaturized total analysis systems (µTAS) are described and d...
The objectives of the proposed research project are: To develop new pumping devices for chemical and...
During the last decade, an increasing amount of pocket-size chemistry equipment based on the so-call...
‘Lab on a chip’ refers to devices and methods for controlling and manipulating fluid flows at micro ...
A new concept for miniaturised analysis systems, based on a modular assembly of silicon system compo...
In this publication a summary of the research on micropumps and microfluid components for mu mTAS ap...
Flow injection analysis systems are often used to enhance the performance of chemical sensors. To re...
Microfluidic devices have shown tremendous promise as miniature lab-on-a-chip platforms that are cap...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...
A central focus of this research is the development of microfluidic devices for manipulating single ...