Add to ORKGA small, consumable-free, low-power, ultra-high-speed comprehensive GC×GC system consisting of microfabricated columns, nanoelectromechanical system (NEMS) cantilever resonators for detection, and a valve-based stop-flow modulator is demonstrated. The separation of a highly polar 29-component mixture covering a boiling point range of 46 to 253 °C on a pair of microfabricated columns using a Staiger valve manifold in less than 7 seconds, and just over 4 seconds after the ensemble holdup time is demonstrated with a downstream FID. The analysis time of the second dimension was 160 ms, and peak widths in the second dimension range from 10–60 ms. A peak capacity of just over 300 was calculated for a separation of just over 6 s. Data from a conti...
The development of portable vapor sensors is of high interest for in situ and real-time chemical ana...
In comprehensive two-dimensional gas chromatography, two individual separations are coupled by means...
This paper reports the first results of a robust, high-performance, stainless-steel microchip gas-ch...
A small, consumable-free, low-power, ultra-high-speed comprehensive GC×GC system consisting of micro...
This paper presents the first comprehensive two-dimensional gas chromatographic (GC×GC) separations ...
ABSTRACT This paper presents the first comprehensive two-dimensional gas chromatographic (GC×GC) sep...
Up till now, comprehensive two-dimensional gas chromatography has suffered from the serious disadvan...
Rapid, comprehensive two-dimensional gas chromatographic (GC × GC) separations by use of a microfabr...
The Microtechnology Center of Lawrence Livermore National Laboratory has developed a high performanc...
A new high-speed valve-based modulator has been designed and tested for use in comprehensive two-dim...
The goal of this research was to develop technology that will facilitate high-speed, multidimensiona...
Gas Chromatography (GC) is routinely used in the laboratory to temporally separate chemical mixtures...
Over the last decade, several cryogenic modulators have been developed, and found application in the...
We introduce an information rich analytical approach called parallel comprehensive two-dimensional g...
Comprehensive two-dimensional gas chromatography (GC×GC) modulators normally transfer primary column...
The development of portable vapor sensors is of high interest for in situ and real-time chemical ana...
In comprehensive two-dimensional gas chromatography, two individual separations are coupled by means...
This paper reports the first results of a robust, high-performance, stainless-steel microchip gas-ch...
A small, consumable-free, low-power, ultra-high-speed comprehensive GC×GC system consisting of micro...
This paper presents the first comprehensive two-dimensional gas chromatographic (GC×GC) separations ...
ABSTRACT This paper presents the first comprehensive two-dimensional gas chromatographic (GC×GC) sep...
Up till now, comprehensive two-dimensional gas chromatography has suffered from the serious disadvan...
Rapid, comprehensive two-dimensional gas chromatographic (GC × GC) separations by use of a microfabr...
The Microtechnology Center of Lawrence Livermore National Laboratory has developed a high performanc...
A new high-speed valve-based modulator has been designed and tested for use in comprehensive two-dim...
The goal of this research was to develop technology that will facilitate high-speed, multidimensiona...
Gas Chromatography (GC) is routinely used in the laboratory to temporally separate chemical mixtures...
Over the last decade, several cryogenic modulators have been developed, and found application in the...
We introduce an information rich analytical approach called parallel comprehensive two-dimensional g...
Comprehensive two-dimensional gas chromatography (GC×GC) modulators normally transfer primary column...
The development of portable vapor sensors is of high interest for in situ and real-time chemical ana...
In comprehensive two-dimensional gas chromatography, two individual separations are coupled by means...
This paper reports the first results of a robust, high-performance, stainless-steel microchip gas-ch...