Add to ORKGIn this paper we present the first micromachined viscosity detector suitable for coupling to conventional, commercially available polymer separation systems. The µ-viscometer (viscochip) has a reduced dead volume compared to conventional viscometers. It is shown that this results in better chromatographic resolution
DoctorA novel micro-viscometer was designed and fabricated to measure the viscosity variation in min...
The possibilities for microtechnology in chemical analysis and separation techniques are discussed. ...
Molecular weight and concentration are two most important characteristics of polymers synthesized th...
Abstract—In this paper, we present a micromachined differential viscosity detector suitable for inte...
We present a micromachined differential viscosity detector suitable for integration into an on-chip ...
A design is presented for a micromachined differential viscometer, that is suitable for integration ...
Size-exclusion chromatography (SEC or GPC) is the most widely used separation method to characterize...
A new miniaturised Light Scattering (LS) apparatus coupled with a capillary viscometer has been deve...
For the first time, a miniaturized hydrodynamic chromatography chip system has been developed and te...
The flow of complex fluids through micro or nanochannels is affected by local viscosity, and this pr...
The feasibility of on-chip analytical separations using planar hydrodynamic chromatography (HDC) in ...
We report the design of a microcapillary rheometer (μCR) that allows to perform experiments rapidly ...
An important characteristic of a polymer is its molecular weight distribution (MWD). The MWD affects...
This paper reports a microfluidic viscometer based on electrofluidic circuits for measuring viscosit...
This project was undertaken for the purpose of designing, constructing, and operating a viscometer w...
DoctorA novel micro-viscometer was designed and fabricated to measure the viscosity variation in min...
The possibilities for microtechnology in chemical analysis and separation techniques are discussed. ...
Molecular weight and concentration are two most important characteristics of polymers synthesized th...
Abstract—In this paper, we present a micromachined differential viscosity detector suitable for inte...
We present a micromachined differential viscosity detector suitable for integration into an on-chip ...
A design is presented for a micromachined differential viscometer, that is suitable for integration ...
Size-exclusion chromatography (SEC or GPC) is the most widely used separation method to characterize...
A new miniaturised Light Scattering (LS) apparatus coupled with a capillary viscometer has been deve...
For the first time, a miniaturized hydrodynamic chromatography chip system has been developed and te...
The flow of complex fluids through micro or nanochannels is affected by local viscosity, and this pr...
The feasibility of on-chip analytical separations using planar hydrodynamic chromatography (HDC) in ...
We report the design of a microcapillary rheometer (μCR) that allows to perform experiments rapidly ...
An important characteristic of a polymer is its molecular weight distribution (MWD). The MWD affects...
This paper reports a microfluidic viscometer based on electrofluidic circuits for measuring viscosit...
This project was undertaken for the purpose of designing, constructing, and operating a viscometer w...
DoctorA novel micro-viscometer was designed and fabricated to measure the viscosity variation in min...
The possibilities for microtechnology in chemical analysis and separation techniques are discussed. ...
Molecular weight and concentration are two most important characteristics of polymers synthesized th...