HS-20 NX series - Sollicitaties

Headspace Sampler

{"hasMore":true,"more":{"id":"tbaleAnchor_more","label":"Meer"},"anchors":[{"id":"tbaleAnchor_applications","label":"Sollicitaties"},{"id":"tbaleAnchor_technical","label":"Technical Documents"},{"id":"tbaleAnchor_manual","label":"Manuals"}]} {"title":"Sollicitaties","columnTitle":"Sollicitaties","source":"product","key":4622,"filter_types":["applications","application_note","posters"],"config_list":[],"anchor":"tbaleAnchor_applications","filter":true} {"title":"Technical Documents","columnTitle":"Technical Documents","source":"product","key":4622,"filter_types":["technical","technical_reports","white_papers","primers"],"config_list":[],"anchor":"tbaleAnchor_technical","filter":true} {"title":"Manuals","columnTitle":"Manuals","source":"product","key":4622,"filter_types":["manuals"],"config_list":[],"anchor":"tbaleAnchor_manual","filter":true}

Rapid Analysis of Volatile Organic Compounds (VOC) in Water by HS-GC/MS

High-speed simultaneous analysis of 26 VOC components, including vinyl chloride monomer and 1,4-dioxane in water, was performed. This method requires 30 minutes of vial heating time with a headspace sampler, but with automatic overlap analysis, up to six samples per hour can be measured*.
* The vial heating time of the 1st analysis, 30 min, is not overlapped, so up to 3 samples can be measured in the first hour.

Rapid Analysis of Volatile Organic Compounds (VOC) in Water by HS-GC/MS
    • 1 Vinyl chloride monomer - d3
      2 vinyl chloride monomer
      3 1,1-Dichloroethylene
      4 dichloromethane
      5 Methyl tert-butyl ether
      6 trans -1, 2-Dichloroethylene
      7 cis -1, 2-dichloroethylene
      8 chloroform
    • 9 1,1,1-Trichloroethane
      10 carbon tetrachloride
      11 benzene
      12 1,2-Dichloroethane
      13 fluorobenzene
      14 trichloroethylene
      15 1.2 Dichloropropane
      16 1.4 -dioxane-d8
    • 17 1.4- dioxane
      18 bromodichloromethane
      19 cis -1, 3 dichloro -1 propene
      20 toluene
      21 trans -1, 3-dichloro -1 propene
      22 1,1,2-Trichloroethane
      23 tetrachloroethylene
      24 dibromochloromethane
    • 25 m, p-xylene
      26 o-xylene
      27 bromoform
      28 4-Bromofluorobenzene
      29 p-Dichlorobenze

Ultra-sensitive analysis


  • Trace Fragrance Analysis in Spices 
    by HS-20 NX Trap Mode


    In some cases, the HS-20 NX loop model may not be sensitive enough to analyze trace amounts of flavor in food samples like spices. The HS-20 NX trap model can concentrate the analytes in a sample by using some trap materials, which enables ultra-sensitive analysis.
  • Trace Fragrance Analysis in Spices  by HS-20 NX Trap Mode
 

Analysis of extractables and leachables contained in packages

  • It has been pointed out that there are safety concerns about extractables and leachables contained in pharmaceutical packages and medical devices leaching into human bodies and medicines. Thus, it is required to understand residual solvents and residual monomers contained in polymers. The use of the HS-20 NX trap mode and the Xtra Low Bleed HS septa, which is made of highly heat resistant and clean material, enables the analysis and evaluation of extractables and leachables, an analysis that is difficult with the loop mode.
  • Comparative Analysis of Extracts from Eye Drops Caps

    Comparative Analysis of Extracts from Eye Drops Caps

    (TD-30 vs HS-20 Trap Mode vs HS-20 NX Loop) 

Sample enrichment using an electronic cooling trap

The HS-20 NX Trap model includes an electronic cooling trap. Since the HS-20 NX Trap models can be cooled down to -20 °C or less, it is possible to concentrate and analyze chemicals over a wide boiling range.

Comparison of analysis of 1 ppm of hydrocarbons (loop vs trap x 5)

Comparison of analysis of 1 ppm of hydrocarbons (loop vs trap x 5)