Add to ORKGWe report here the first MEMS temperature-programmable high pressure parylene column with integrated thermal isolation and electrochemical sensor for on-chip temperature gradient liquid chromatography. Two sets of devices for different high performance liquid chromatography (HPLC) criteria were fabricated. The separation and detection of derivatized amino acids sample was successfully demonstrated. Compared with other temperature gradient HPLC systems which use "macro oven" to generate temporal temperature gradient in the column, our device's thermal performance is greatly improved by orders of magnitude without the sacrifice of chromatography quality
A new gradient pump device, capable to generate accurate nano- and micro-flow rate gradients from a ...
This paper presents the first fully integrated gradient-elution liquid chromatography-electrospray i...
Electrical gradients enhance protein separations in chromatography columns. The goal of this dissert...
This paper reports the first integrated microelectromechanical system (MEMS) HPLC chip that consists...
This paper reports the first integrated MEMS high performance liquid chromatography (HPLC) chip that...
Utilizing temperature as an active parameter for optimization in chip-based liquid chromatography is...
Temperature Responsive Liquid Chromatography (TRLC) offers an alternative and environmentally friend...
A microfluidic chip that integrates all the fluidic components of a gradient liquid chromatography (...
We present a novel microfluidic chip that combines liquid chromatography (LC) column and heated nebu...
Here we reported a novel technology using parylene-cross-linking structure to achieve on-chip air-ga...
The effect of axial temperature gradient (ATG) along a microcolumn on the separation performance at ...
A parylene-MEMS ion-exchange Liquid Chromatography (LC) chip is presented here. The chip is integrat...
High-performance liquid chromatography (HPLC) is one of the most important analytical tools heavily ...
A new direct contact platform for capillary column precise temperature control based upon the use of...
A robust, portable and miniature battery powered gradient capillary liquid chromatograph (total weig...
A new gradient pump device, capable to generate accurate nano- and micro-flow rate gradients from a ...
This paper presents the first fully integrated gradient-elution liquid chromatography-electrospray i...
Electrical gradients enhance protein separations in chromatography columns. The goal of this dissert...
This paper reports the first integrated microelectromechanical system (MEMS) HPLC chip that consists...
This paper reports the first integrated MEMS high performance liquid chromatography (HPLC) chip that...
Utilizing temperature as an active parameter for optimization in chip-based liquid chromatography is...
Temperature Responsive Liquid Chromatography (TRLC) offers an alternative and environmentally friend...
A microfluidic chip that integrates all the fluidic components of a gradient liquid chromatography (...
We present a novel microfluidic chip that combines liquid chromatography (LC) column and heated nebu...
Here we reported a novel technology using parylene-cross-linking structure to achieve on-chip air-ga...
The effect of axial temperature gradient (ATG) along a microcolumn on the separation performance at ...
A parylene-MEMS ion-exchange Liquid Chromatography (LC) chip is presented here. The chip is integrat...
High-performance liquid chromatography (HPLC) is one of the most important analytical tools heavily ...
A new direct contact platform for capillary column precise temperature control based upon the use of...
A robust, portable and miniature battery powered gradient capillary liquid chromatograph (total weig...
A new gradient pump device, capable to generate accurate nano- and micro-flow rate gradients from a ...
This paper presents the first fully integrated gradient-elution liquid chromatography-electrospray i...
Electrical gradients enhance protein separations in chromatography columns. The goal of this dissert...