Technique Categories



Product Listing

  • Product Part
    Description:

    Used for organochlorine pesticides analysis Bonded and crossed-linked Able to be solvent rinsed

    OUT OF STOCK

    Used for organochlorine pesticides analysis Bonded and crossed-linked Able to be solvent rinsed

  • Product Part
    Description:

    For splitless, length 99mm

    OUT OF STOCK

    For splitless, length 99mm

  • Product Part
    Description:

    For CLH-14 Injection Port Side, OD 4.8mm, length 123mm

    OUT OF STOCK

    For CLH-14 Injection Port Side, OD 4.8mm, length 123mm

  • Product Part
    Description:

    For CLH-14 Detector side, ID 2.6mm, OD 5mm, length 71mm

    OUT OF STOCK

    For CLH-14 Detector side, ID 2.6mm, OD 5mm, length 71mm

  • Product Part
    Description:

    Split only, ID 3.4mm, OD 4.8mm, Length 99mm

    OUT OF STOCK

    Split only, ID 3.4mm, OD 4.8mm, Length 99mm

  • Product Part
    Description:

    Split only, Length 99mm

    OUT OF STOCK

    Split only, Length 99mm

  • Product Part
    Description:

    Press-Tight™ Connector (5 pcs) This connector is used to connect capillary columns easily by inserting the columns into the connector from both ends. When the columns are coated with polyimide resin, the connection will remain tight almost permanently and will be completely free of leakage. Applicable to 0.35 mm to 0.8 mmOD capillary columns. This product is usable up to the maximum temperature of your columns—not to exceed 350 °C. Main usage: Connection of broken capillary columns The connectors are unobtrusive.   On-column sample injection Any capillary columns can be used in on-column injection mode by connecting a short wide-bore capillary columns to the inlet of the column   Retention gap method An about 2 meters long capillary tube with no stationary phase, which is connected to the head of analytical capillary column, prevents peaks from being split  Column conditioning A short capillary tube, which is connected to the outlet of the column, prevents air (oxygen) from diffusing into the column, thus preventing the deterioration of liquid phase which is kept at a high temperature   Stable storing of capillary columns Deterioration by air and contamination can be prevented by connecting the both ends with a capillary tube.

    OUT OF STOCK

    Press-Tight™ Connector (5 pcs) This connector is used to connect capillary columns easily by inserting the columns into the connector from both ends. When the columns are coated with polyimide resin, the connection will remain tight almost permanently and will be completely free of leakage. Applicable to 0.35 mm to 0.8 mmOD capillary columns. This product is usable up to the maximum temperature of your columns—not to exceed 350 °C. Main usage: Connection of broken capillary columns The connectors are unobtrusive.   On-column sample injection Any capillary columns can be used in on-column injection mode by connecting a short wide-bore capillary columns to the inlet of the column   Retention gap method An about 2 meters long capillary tube with no stationary phase, which is connected to the head of analytical capillary column, prevents peaks from being split  Column conditioning A short capillary tube, which is connected to the outlet of the column, prevents air (oxygen) from diffusing into the column, thus preventing the deterioration of liquid phase which is kept at a high temperature   Stable storing of capillary columns Deterioration by air and contamination can be prevented by connecting the both ends with a capillary tube.

  • Product Part
    Description:

    Press-Tight™ Connector (5 pcs with 5 g polyimide resin) This connector is used to connect capillary columns easily by inserting the columns into the connector from both ends. When the columns are coated with polyimide resin, the connection will remain tight almost permanently and will be completely free of leakage. Applicable to 0.35 mm to 0.8 mmOD capillary columns. This product is usable up to the maximum temperature of your columns—not to exceed 350 °C. Main usage: Connection of broken capillary columns The connectors are unobtrusive.   On-column sample injection Any capillary columns can be used in on-column injection mode by connecting a short wide-bore capillary columns to the inlet of the column   Retention gap method An about 2 meters long capillary tube with no stationary phase, which is connected to the head of analytical capillary column, prevents peaks from being split   Column conditioning A short capillary tube, which is connected to the outlet of the column, prevents air (oxygen) from diffusing into the column, thus preventing the deterioration of liquid phase which is kept at a high temperature   Stable storing of capillary columns Deterioration by air and contamination can be prevented by connecting the both ends with a capillary tube.

    OUT OF STOCK

    Press-Tight™ Connector (5 pcs with 5 g polyimide resin) This connector is used to connect capillary columns easily by inserting the columns into the connector from both ends. When the columns are coated with polyimide resin, the connection will remain tight almost permanently and will be completely free of leakage. Applicable to 0.35 mm to 0.8 mmOD capillary columns. This product is usable up to the maximum temperature of your columns—not to exceed 350 °C. Main usage: Connection of broken capillary columns The connectors are unobtrusive.   On-column sample injection Any capillary columns can be used in on-column injection mode by connecting a short wide-bore capillary columns to the inlet of the column   Retention gap method An about 2 meters long capillary tube with no stationary phase, which is connected to the head of analytical capillary column, prevents peaks from being split   Column conditioning A short capillary tube, which is connected to the outlet of the column, prevents air (oxygen) from diffusing into the column, thus preventing the deterioration of liquid phase which is kept at a high temperature   Stable storing of capillary columns Deterioration by air and contamination can be prevented by connecting the both ends with a capillary tube.