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Guard Columns
Product Listing
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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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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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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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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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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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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.