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- Reference Material on InstrumentationArticle - A High Temperature Direct Probe for a Mass Spectrometer Design of a Direct Exposure Probe and Controller for use ona Hewlett-Packard 5989 Mass Spectrometer SIS AP1000 AutoProbe™ SIS AP2000 AutoProbe™ - Description of System HPP7: Direct Probe Electronics Console HPP7: Direct Probe for the Agilent (HP) 5973/5975 MSD HPP7: HP Direct Probe Application Notes HPP7: Installation Directions for the Direct Probe HPP7: Side Cover for the HP 5973 MSD HPP7: Support HPP7: Probe Inlet System for the Agilent (HP) 5973 and 5975 MSD with Automatic Indexed Stops HPP7: Theory of Operation of the Direct Probe and Probe Inlet System Direct Thermal Extraction Thermal Desorption Application Notes Environmental Thermal Desorption Application Notes Food Science Thermal Desorption Application Notes Forensic Thermal Desorption Application Notes GC Cryo-Trap Application Notes Headspace Application Notes Purge & Trap Thermal Desorption Application Notes Theory of Operation of the AutoDesorb® System AutoDesorb Notes for SIS Dealers Adsorbent Resin Application Notes Installation of the Short Path Thermal Desorption System on Agilent (HP) and Other GCs Installation of the Short Path Thermal Desorption System on a Varian 3400 GC AutoDesorb® System Development Team Thermal Desorption Applications and Reference Materials Installation of the Short Path Thermal Desorption System - TD5 Part I - Design & Operation of the Short Path ThermalDesorption System Installation Instructions for the Model 951 GC Cryo-Trap on the HP 5890 Series GC Installation Instructions for the Model 961 GC Cryo-Trap on the HP 5890 Series GC Operation of the Model 951/961 GC Cryo-Trap SIS GC Cryo Traps - Theory of Operation NIST/EPA/NIH Mass Spectral Enhancements - 1998 version (NIST98) SIMION 3D Ion Optics Class Mass Spectrometer Source Cleaning Methods MS Tip: Mass Spectrometer Source Cleaning Procedures Mass Spec Source Cleaning Procedures Micro-Mesh® Abrasive Sheets Research Papers Using New Era Syringe Pump Systems EI Positive Ion Spectra for Perfluorokerosene (PFK) Cap Liner Information How do I convert between fluid oz and milliliters? Which bottle material should I choose? Which bottle mouth should I choose? The Bottle Selection Guide CGA Connections for Gas Tanks Chemical Reaction Interface Mass Spectrometry (CRIMS)
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- Purge & Trap Thermal Desorption Application Notes (This Page)
- Note 97: Flavor Profiles of Imported and Domestic Beers by Purge & Trap Thermal Desorption GC/MS Ronald E. Shomo, II, Robert Frey, John J. Manura, and Christopher Baker Scientific Instrument Services, Ringoes, NJ (presented at ASMS 2013) Introduction Domestic beer sales were $99 Billion in 2012. 1 This equates to 200,028,520 barrels of product brewed and sold last year. The overall growth from 2011 was 1%, but the fastest growing seg- ment of the beer industry is in regional craft (10,237,632 bbl), brewpubs (870,371 bbl) and microbrewers (1,905,212 bbl) with increased sales of 17% during t...
- Note 93: Detection of Benzene in Carbonated Beverages with Purge & Trap Thermal Desorption GC/MS Detection of Benzene in Carbonated Beverages with Purge & Trap Thermal Desorption GC/MS
- Note 43: Volatile Organic Composition In Blueberries Volatile Organic Composition In Blueberries
- Note 42: The Influence of Pump Oil Purity on Roughing Pumps Note 42: The Influence Of Pump Oil Purity On Roughing Pumps
- Note 38: A New Micro Cryo-Trap For Trapping Of Volatiles At the Front Of a GC Capillary Column A New Micro Cryo-Trap For Trapping Of Volatiles At the Front Of a GC Capillary Column
- Note 35: Volatile Organics Composition of Cranberries Volatile Organic Composition Of Cranberries
- Note 34: Selection Of Thermal Desorption and Cryo-Trap Parameters In the Analysis Of Teas Selection Of Thermal Desorption and Cryo-Trap Parameters In the Analysis Of Teas
- Note 33: Changes in Volatile Organic Composition in Milk Over Time Changes in Volatile Organic Composition in Milk Over Time
- Note 32: Selection and Use of Adsorbent Resins for Purge and Trap Thermal Desorption Applications Selection and Use of Adsorbent Resins for Purge and Trap Thermal Desorption Applications
- Note 31: Volatile Organic Composition in Several Cultivars of Peaches Volatile Organic Composition in Several Cultivars of Peaches
- Note 30: Comparison Of Cooking Oils By Direct Thermal Extraction and Purge and Trap GC/MS Comparison Of Cooking Oils By Direct Thermal Extraction and Purge and Trap GC/MS
- Note 26: Volatile Organics Present in Recycled Air Aboard a Commercial Airliner Volatile Organics Present in Recycled Air Aboard a Commercial Airliner
- Note 25: Flavor and Aroma in Natural Bee Honey Flavor and Aroma in Natural Bee Honey
- Note 23: Frangrance Qualities in Colognes Fragrance Qualities in Colognes
- Note 22: Comparison Of Volatile Compounds In Latex Paints Comparison Of Volatile Compounds In Latex Paints
- Note 21: Detection and Identification Of Volatile and Semi-Volatile Organics In Synthetic Polymers Used In Food and Pharmaceutical Packaging Detection and Identification Of Volatile and Semi-Volatile Organics In Synthetic Polymers Used In Food and Pharmaceutical Packaging
- Note 20: Using Direct Thermal Desorption to Assess the Potential Pool of Styrene and 4-Phenylcyclohexene In Latex-Backed Carpets Using Direct Thermal Desorption to Assess the Potential Pool of Styrene and 4-Phenylcyclohexene In Latex-Backed Carpets
- Note 18: Determination of Volatile Organic Compounds In Mushrooms Determination of Volatile Organic Compounds In Mushrooms
- Note 17: Identification of Volatile Organics in Wines Over Time Identification of Volatile Organics In Wines Over Time
- Note 16: Analysis of Indoor Air and Sources of Indoor Air Contamination by Thermal Desorption Analysis of Indoor Air and Sources of Indoor Air Contamination by Thermal Desorption
- Note 14: Identification of Volatiles and Semi-Volatiles In Carbonated Colas Identification of Volatiles and Semi-Volatiles In Carbonated Colas
- Note 8: Detection of Volatile Organic Compounds In Liquids Utilizing the Short Path Thermal Desorption System Detection of Volatile Organic Compounds In Liquids Utilizing the Short Path Thermal Desorption System
- Note 3: Indoor Air Pollution Indoor Air Pollution Analzyed By Mass Spec
- Note 2: Detection of Arson Accelerants Using Dynamic Headspace with Tenax® Cartridges Thermal Desorption and Cryofocusing Detection of Arson Accelerants Using Dynamic Headspace with Tenax® Cartridges Thermal Desorption and Cryofocusing