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Volatile organic pollutant analysis

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Volatile organic pollutant analysis

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  • R227-36303-01_01_SH-I Guard
    Product Part
    SH-VMS Cap. Column 0.32mm, 1.8μm, 60m
    227-36269-02
    Description:

    Dedicated columns for analyzing volatile organic pollutants by GCMS including methods TO-15, TMS, and EPA 8260. Complete separation of U.S. EPA Method 8260 compounds in less than 10 minutes.

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    Dedicated columns for analyzing volatile organic pollutants by GCMS including methods TO-15, TMS, and EPA 8260. Complete separation of U.S. EPA Method 8260 compounds in less than 10 minutes.

  • GC Columns_1
    Product Part
    SH-VRX Cap. Column 0.1mm, 0.5μm, 25m
    227-36331-01
    Description:

    Application-specific columns for volatile organic pollutants. Excellent for U.S. EPA Method 8021 compounds. The SH-VRX stationary phase and optimized column dimensions provide low bleed, excellent resolution, and fast analysis times for volatile compounds.

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    Application-specific columns for volatile organic pollutants. Excellent for U.S. EPA Method 8021 compounds. The SH-VRX stationary phase and optimized column dimensions provide low bleed, excellent resolution, and fast analysis times for volatile compounds.

  • GC Columns_1
    Product Part
    SH-502.2 Cap. Column 0.32mm, 1.80μm, 30m
    227-36341-01
    Description:

    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

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    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

  • GC Columns_1
    Product Part
    SH-502.2 Cap. Column 0.32mm, 1.80μm, 105m
    227-36341-02
    Description:

    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

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    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

  • GC Columns_1
    Product Part
    SH-502.2 Cap. Column 60m, 0.25mmID, 1.40um
    227-36341-03
    Description:

    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

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    Application-specific columns with unique selectivity for volatile organic pollutants. The SH-502.2 column is cited in U.S. EPA Method 502.2 and in many gasoline range organics (GRO) methods for monitoring underground storage tanks.  Excellent separation of trihalomethanes; ideal polarity for light hydrocarbons and aromatics. Similar phase: DB-502.2 The SH-502.2 column will enable you to quantify all compounds listed in U.S. EPA methods 502.2 or 524.2, whether you use a mass spectrometer or a PID in tandem with an ELCD. The diphenyl/dimethyl polysiloxane based SH-502.2 stationary phase provides low bleed and thermal stability to 270 °C. A 105-meter column can separate the light gases specified in EPA methods without subambient cooling. Narrow bore columns can interface directly in GC/MS systems.

  • R227-36303-01_01_SH-I Guard
    Product Part
    SH-VMS Cap. Column 0.18mm, 1μm, 20m
    227-36412-01
    Description:

    Dedicated columns for analyzing volatile organic pollutants by GCMS including methods TO-15, TMS, and EPA 8260. Complete separation of U.S. EPA Method 8260 compounds in less than 10 minutes.

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    Dedicated columns for analyzing volatile organic pollutants by GCMS including methods TO-15, TMS, and EPA 8260. Complete separation of U.S. EPA Method 8260 compounds in less than 10 minutes.