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Product PartDescription:
Tested with a basic amine test mix. Excellent inertness for basic compounds. Recommended for use with SH-5 Amine, SH-35 Amine, SH-Volatile Amine, and SH-PolarX capillary columns. Batch test chromatogram included. Maximum temperature: 315 °C. Chemists using guard columns in the analyses of basic compounds frequently observe peak tailing and low recovery. This happens because conventionally deactivated tubing surfaces can be adsorptive to basic compounds. Shimadzu offers basedeactivated guard columns, as well as base-deactivated inlet liners, for completely inert sample pathways.
OUT OF STOCKTested with a basic amine test mix. Excellent inertness for basic compounds. Recommended for use with SH-5 Amine, SH-35 Amine, SH-Volatile Amine, and SH-PolarX capillary columns. Batch test chromatogram included. Maximum temperature: 315 °C. Chemists using guard columns in the analyses of basic compounds frequently observe peak tailing and low recovery. This happens because conventionally deactivated tubing surfaces can be adsorptive to basic compounds. Shimadzu offers basedeactivated guard columns, as well as base-deactivated inlet liners, for completely inert sample pathways.
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Product Part
Description:
Tested with a basic amine test mix. Excellent inertness for basic compounds. Recommended for use with SH-5 Amine, SH-35 Amine, SH-Volatile Amine, and SH-PolarX capillary columns. Batch test chromatogram included. Maximum temperature: 315 °C. Chemists using guard columns in the analyses of basic compounds frequently observe peak tailing and low recovery. This happens because conventionally deactivated tubing surfaces can be adsorptive to basic compounds. Shimadzu offers basedeactivated guard columns, as well as base-deactivated inlet liners, for completely inert sample pathways.
OUT OF STOCKTested with a basic amine test mix. Excellent inertness for basic compounds. Recommended for use with SH-5 Amine, SH-35 Amine, SH-Volatile Amine, and SH-PolarX capillary columns. Batch test chromatogram included. Maximum temperature: 315 °C. Chemists using guard columns in the analyses of basic compounds frequently observe peak tailing and low recovery. This happens because conventionally deactivated tubing surfaces can be adsorptive to basic compounds. Shimadzu offers basedeactivated guard columns, as well as base-deactivated inlet liners, for completely inert sample pathways.
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Product Part
Description:
Polar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
OUT OF STOCKPolar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
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Product Part
Description:
Polar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
OUT OF STOCKPolar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
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Product Part
Description:
Polar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
OUT OF STOCKPolar polyethylene glycol deactivation Tested with a comprehensive test mix to ensure high inertness. Polyethylene glycol deactivation layer provides optimum wettability for polar compounds. Minimize peak splitting when using polar solvents such as methanol or water. Compatible with SH-PolarWax, SH-225 and SH-2330 capillary columns. Maximum temperature: 280 °C.
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Product PartDescription:
Midpolarity Crossbond™ phase General-purpose columns for alcohols, oxygenates, PCB congeners (e.g., Aroclor mixes), and pesticides. Equivalent to USP G46 phase. 4.5" standard coil diameter. Similar phase: DB-PS1701
OUT OF STOCKMidpolarity Crossbond™ phase General-purpose columns for alcohols, oxygenates, PCB congeners (e.g., Aroclor mixes), and pesticides. Equivalent to USP G46 phase. 4.5" standard coil diameter. Similar phase: DB-PS1701
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Product Part
Description:
Polar phase; Crossbond™ Carbowax polyethylene glycol—provides oxidation resistance General-purpose columns for FAMEs, flavor compounds, essential oils, amines, solvents, xylene isomers, and U.S. EPA Method 603 (acrolein/acrylonitrile). Equivalent to USP G14, G15, G16, G20, and G39 phases. 4.5" standard coil diameter.
OUT OF STOCKPolar phase; Crossbond™ Carbowax polyethylene glycol—provides oxidation resistance General-purpose columns for FAMEs, flavor compounds, essential oils, amines, solvents, xylene isomers, and U.S. EPA Method 603 (acrolein/acrylonitrile). Equivalent to USP G14, G15, G16, G20, and G39 phases. 4.5" standard coil diameter.
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Product PartDescription:
General-purpose columns with unique selectivity for pesticides, PAHs, or other semivolatiles. Ideal for low/trace-level analyses. Low-bleed, high-resolution columns with unique selectivity.
OUT OF STOCKGeneral-purpose columns with unique selectivity for pesticides, PAHs, or other semivolatiles. Ideal for low/trace-level analyses. Low-bleed, high-resolution columns with unique selectivity.
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Product PartDescription:
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.
OUT OF STOCKApplication-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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Product PartDescription:
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.
OUT OF STOCKApplication-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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Product PartDescription:
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.
OUT OF STOCKApplication-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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Product Part
Description:
Low-polarity phase: Crossbond™ 5% diphenyl / 95% dimethyl polysiloxane Tested and guaranteed for ultra-low bleed; improved signal-to-noise ratio for better sensitivity and mass spectral integrity. General-purpose columns for semi-volatiles, phenols, amines, residual solvents, drugs of abuse, pesticides, PCB congeners (e.g., Aroclor mixes), solvent impurities. Equivalent to USP G27 and G36 phases. Similar phases: HP-5ms UI, HP-5ms, DB-5, Ultra-2, CP Sil 8 CB, SPB-5, Equity-5
OUT OF STOCKLow-polarity phase: Crossbond™ 5% diphenyl / 95% dimethyl polysiloxane Tested and guaranteed for ultra-low bleed; improved signal-to-noise ratio for better sensitivity and mass spectral integrity. General-purpose columns for semi-volatiles, phenols, amines, residual solvents, drugs of abuse, pesticides, PCB congeners (e.g., Aroclor mixes), solvent impurities. Equivalent to USP G27 and G36 phases. Similar phases: HP-5ms UI, HP-5ms, DB-5, Ultra-2, CP Sil 8 CB, SPB-5, Equity-5