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Capillary columns
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Description:
Low-polarity phase: Crossbond silarylene phase 1,4-bis(dimethylsiloxy)phenylene dimethyl polysiloxane Engineered to be a low-bleed GCMS column General-purpose columns - ideal for GCMS analysis of semi-volatiles, polycyclic aromatic compounds, chlorinated hydrocarbons, phthalates, phenols, amines, organochlorine pesticides, organophosphorus pesticides, drugs, solvent impurities, and hydrocarbons Similar phases: Rtx-5Sil MS, DB-5ms UI, DB-5ms, VF-5ms, SLB-5ms, BPX-5, ZB-5MS, ZB-Semi-Volatiles, 007-5MS
OUT OF STOCKLow-polarity phase: Crossbond silarylene phase 1,4-bis(dimethylsiloxy)phenylene dimethyl polysiloxane Engineered to be a low-bleed GCMS column General-purpose columns - ideal for GCMS analysis of semi-volatiles, polycyclic aromatic compounds, chlorinated hydrocarbons, phthalates, phenols, amines, organochlorine pesticides, organophosphorus pesticides, drugs, solvent impurities, and hydrocarbons Similar phases: Rtx-5Sil MS, DB-5ms UI, DB-5ms, VF-5ms, SLB-5ms, BPX-5, ZB-5MS, ZB-Semi-Volatiles, 007-5MS
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
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Description:
By strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.
OUT OF STOCKBy strengthening the cross-linking structure, the operating temperature range (20 to 250/260 °C) can be widened. In addition, the state-of-the-art deactivation process produces sharp and symmetrical peaks and maintains deactivation for a long time, allowing stable use. These improved the separation performance of low-boiling compounds and enhanced repeatability and temperature stability.