Add to ORKGMicrofluidics applications have served as interface between the macro- and nano-world. The physical behavior of fluids (both liquids and gases) at the microscale is a challenging issue for the growing microfluidic applications demands. Microscale systems offer many advantages such as minimal substances consumption, complex chemical waveforms, and significantly reduced analysis or experiment time (for example, an important concept recentl
The benefits of slug flow capillary microreactor exhibit the ability to adjust two in-dividual trans...
The results of experimental studies on eight parallel capillary microreactors for both single phase ...
Microfluidics is a technology where application span the biomedical field and beyond. Single cell an...
Microreactor technology is an important method of process intensification. Liquid-liquid slug flow c...
Microreactor technology is an important method of process intensification. Liquid–liquid slug flow c...
Mass transfer is a basic phenomenon behind many processes like reaction, absorption, extraction etc....
Liquid-liquid biphasic reactions play an important role in the chemical and pharmaceutical Industrie...
The use of liquid-liquid slug flow in the capillary microreactor is a promising technique for intens...
Microfluidics is an emerging new interdisciplinary field that deals with the manipulation of fluids ...
AbstractThe benefits of slug flow capillary microreactor exhibit the ability to adjust two individua...
Recently, there has been a large emphasis on miniaturization of devices for a multitude of applicati...
Immiscible liquid-liquid flow patterns and mass transfer were investigated in circular PTFE capillar...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Micro fluidics is a young discipline. During its beginning, it was mainly an academic field in where...
Using liquid slugs as microreactors and microvessels enable precise control over the conditions of t...
The benefits of slug flow capillary microreactor exhibit the ability to adjust two in-dividual trans...
The results of experimental studies on eight parallel capillary microreactors for both single phase ...
Microfluidics is a technology where application span the biomedical field and beyond. Single cell an...
Microreactor technology is an important method of process intensification. Liquid-liquid slug flow c...
Microreactor technology is an important method of process intensification. Liquid–liquid slug flow c...
Mass transfer is a basic phenomenon behind many processes like reaction, absorption, extraction etc....
Liquid-liquid biphasic reactions play an important role in the chemical and pharmaceutical Industrie...
The use of liquid-liquid slug flow in the capillary microreactor is a promising technique for intens...
Microfluidics is an emerging new interdisciplinary field that deals with the manipulation of fluids ...
AbstractThe benefits of slug flow capillary microreactor exhibit the ability to adjust two individua...
Recently, there has been a large emphasis on miniaturization of devices for a multitude of applicati...
Immiscible liquid-liquid flow patterns and mass transfer were investigated in circular PTFE capillar...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Micro fluidics is a young discipline. During its beginning, it was mainly an academic field in where...
Using liquid slugs as microreactors and microvessels enable precise control over the conditions of t...
The benefits of slug flow capillary microreactor exhibit the ability to adjust two in-dividual trans...
The results of experimental studies on eight parallel capillary microreactors for both single phase ...
Microfluidics is a technology where application span the biomedical field and beyond. Single cell an...