Operating principle of Selective Sampler
Technical notes | | Frontier LabInstrumentation
Modern polymer analysis requires precise identification of evolved gases released at specific temperatures. Heart-cut analysis of Evolved Gas Analysis (EGA) thermograms enables focused characterization of target fractions, but conventional valve-based switching often leads to contamination and extended cycle times. The Selective Sampler (SS) offers a contamination-free, rapid alternative by using auxiliary helium to direct flow paths without mechanical valves.
This technical note describes the operating principle and practical implementation of the Selective Sampler accessory for the Multi-functional Pyrolyzer. It aims to demonstrate how auxiliary He gas switching can perform automated heart-cut analysis on predefined temperature zones, reducing contamination and analysis time compared to traditional approaches.
By toggling the auxiliary He valve between “ON” and “OFF,” the SS directs pyrolyzer effluent either to the GC column or to the split vent. Eight discrete temperature zones can be selected automatically. This design eliminates mechanical sliding surfaces in the flow path, preventing deposition of high-boilers and solvent residues. The combination with a cryo-trap ensures sharp focusing of selected components, improving peak resolution and sensitivity.
Integration of SS-based switching in advanced GC-MS and GC×GC platforms could further enhance selectivity and throughput. Development of software-driven selection of dynamic cut windows and adaptation to alternative carrier gases or detectors will expand its utility in petrochemical, environmental, and materials research.
The Selective Sampler accessory provides a robust, contamination-free method for heart-cut analysis of EGA thermograms. By leveraging auxiliary helium switching, it streamlines polymer analysis workflows, enhances data quality, and supports automated multi-zone fractionation.
No formal literature references were provided in the source document.
Sample Preparation, Pyrolysis
IndustriesManufacturerFrontier Lab
Summary
Significance of the Topic
Modern polymer analysis requires precise identification of evolved gases released at specific temperatures. Heart-cut analysis of Evolved Gas Analysis (EGA) thermograms enables focused characterization of target fractions, but conventional valve-based switching often leads to contamination and extended cycle times. The Selective Sampler (SS) offers a contamination-free, rapid alternative by using auxiliary helium to direct flow paths without mechanical valves.
Objectives and Study Overview
This technical note describes the operating principle and practical implementation of the Selective Sampler accessory for the Multi-functional Pyrolyzer. It aims to demonstrate how auxiliary He gas switching can perform automated heart-cut analysis on predefined temperature zones, reducing contamination and analysis time compared to traditional approaches.
Methodology and Instrumentation Used
- Multi-functional Pyrolyzer coupled to GC with split/splitless injector.
- Selective Sampler (SS-1010E) adapter mounted beneath the injector.
- Auxiliary helium line and solenoid valve to implement Deans-style switching.
- Micro-Jet Cryo-Trap (MJT-1035E) for focused retention of cut fractions.
Main Results and Discussion
By toggling the auxiliary He valve between “ON” and “OFF,” the SS directs pyrolyzer effluent either to the GC column or to the split vent. Eight discrete temperature zones can be selected automatically. This design eliminates mechanical sliding surfaces in the flow path, preventing deposition of high-boilers and solvent residues. The combination with a cryo-trap ensures sharp focusing of selected components, improving peak resolution and sensitivity.
Benefits and Practical Applications
- Eliminates contamination associated with mechanical valves, extending column and detector life.
- Reduces cycle times by integrating switching in the injector without external valves.
- Enables automated, multi-zone heart-cut EGA for polymer characterization or QA/QC workflows.
Future Trends and Potential Uses
Integration of SS-based switching in advanced GC-MS and GC×GC platforms could further enhance selectivity and throughput. Development of software-driven selection of dynamic cut windows and adaptation to alternative carrier gases or detectors will expand its utility in petrochemical, environmental, and materials research.
Conclusion
The Selective Sampler accessory provides a robust, contamination-free method for heart-cut analysis of EGA thermograms. By leveraging auxiliary helium switching, it streamlines polymer analysis workflows, enhances data quality, and supports automated multi-zone fractionation.
Reference
No formal literature references were provided in the source document.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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