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CoolCell FTS30 utilizes a solid state core and controlled microconvection technology to evenly draw in -80°C freezer air through a bottom base vent, uniformly disperse the cold air around each vial in the central chamber and then release the thermal load from the vials through a top vent choke. The inner vial module holds 30 cryogenic vials and can be removed in one step. Each vial achieves a uniform and reproducible -1°C/minute freezing profile and thermal profiles are highly reproducible. Due to the low thermal mass of the uniform-density cross-linked polyethylene foam container, freezing can be conducted without a rise in local freezer temperature, thereby protecting nearby samples. CoolCell FTS30 utilizes a solid state core and controlled microconvection technology to evenly draw in -80°C freezer air through a bottom base vent, uniformly disperse the cold air around each vial in the central chamber and then release the thermal load from the vials through a top vent choke. The inner vial module holds 30 cryogenic vials and can be removed in one step. Each vial achieves a uniform and reproducible -1°C/minute freezing profile and thermal profiles are highly reproducible. Due to the low thermal mass of the uniform-density cross-linked polyethylene foam container, freezing can be conducted without a rise in local freezer temperature, thereby protecting nearby samples.
Product Detail
Cryogenic vial grippers feature a unique design to grasp internal or external-thread cryogenic vials. Grippers enable to easily sort or move vials while maintaining sterility and protecting fingers from frozen vials, dry ice and liquid nitrogen. 5 per case. Cryogenic vial grippers feature a unique design to grasp internal or external-thread cryogenic vials. Grippers enable to easily sort or move vials while maintaining sterility and protecting fingers from frozen vials, dry ice and liquid nitrogen. 5 per case.
Product Detail
Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out. Features: Unique features of controlled-rate freezing with Corning® CoolCell® include: - Ease of use - Alcohol and fluid-free freezing - Lower cost of use than alcohol-based devices - High cell recovery and cell viability - Reproducibility - Simple, consistent way to standardize controlled-rate freezing Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out. Features: Unique features of controlled-rate freezing with Corning® CoolCell® include: - Ease of use - Alcohol and fluid-free freezing - Lower cost of use than alcohol-based devices - High cell recovery and cell viability - Reproducibility - Simple, consistent way to standardize controlled-rate freezing
Product Detail
Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out. Features: Unique features of controlled-rate freezing with Corning® CoolCell® include: - Ease of use - Alcohol and fluid-free freezing - Lower cost of use than alcohol-based devices - High cell recovery and cell viability - Reproducibility - Simple, consistent way to standardize controlled-rate freezing Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out. Features: Unique features of controlled-rate freezing with Corning® CoolCell® include: - Ease of use - Alcohol and fluid-free freezing - Lower cost of use than alcohol-based devices - High cell recovery and cell viability - Reproducibility - Simple, consistent way to standardize controlled-rate freezing
Product Detail
PC. With 120 mm Ø screw cap of blue PEHD. Vial holder made of white PEHD. Foam interior. Suitable for cryovials 1.0, 1.2, 1.5, 2.0 ml. Cooling rate 1 °C / min. Tubes can be easily removed. Molded numbers for identification. Stackable. PC. With 120 mm Ø screw cap of blue PEHD. Vial holder made of white PEHD. Foam interior. Suitable for cryovials 1.0, 1.2, 1.5, 2.0 ml. Cooling rate 1 °C / min. Tubes can be easily removed. Molded numbers for identification. Stackable.
Product Detail
PC. With 120 mm Ø screw cap of blue PEHD. Vial holder made of white PEHD. Foam interior. Suitable for cryovials 1.0, 1.2, 1.5, 2.0 ml. Cooling rate 1 °C / min. Tubes can be easily removed. Molded numbers for identification. Stackable. PC. With 120 mm Ø screw cap of blue PEHD. Vial holder made of white PEHD. Foam interior. Suitable for cryovials 1.0, 1.2, 1.5, 2.0 ml. Cooling rate 1 °C / min. Tubes can be easily removed. Molded numbers for identification. Stackable.
Product Detail
Corning CoolCell 5 mL LX, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The low heat content also ensures that CoolCell LX containers will rapidly return to room temperature when removed from freezer. Corning CoolCell 5 mL LX, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The low heat content also ensures that CoolCell LX containers will rapidly return to room temperature when removed from freezer.
Product Detail
Corning CoolCell LX, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The low heat content also ensures that CoolCell LX containers will rapidly return to room temperature when removed from freezer. Corning CoolCell LX, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The low heat content also ensures that CoolCell LX containers will rapidly return to room temperature when removed from freezer.
Product Detail
Features: Unique features of controlled-rate freezing with Corning® CoolCell® include: Features: Unique features of controlled-rate freezing with Corning® CoolCell® include:
Product Detail
Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out. Corning CoolCell, in combination with a -80°C freezer, will provide alcohol-free freezing at the rate of -1°C/minute that is ideal for cryopreservation of most cells and cell lines. Using a combination of uniform-density cross-linked polyethylene foam, a solid state core, and radial vial symmetry, freezing profiles are consistent and reproducible. The foam is non-absorbent and will impose negligible change in the freezer environment; thereby protecting nearby frozen samples. The removal of vials is accomplished by tipping the device upside down so the vials slide out.
Product Detail
CoolCell FTS30 utilizes a solid state core and controlled microconvection technology to evenly draw in -80°C freezer air through a bottom base vent, uniformly disperse the cold air around each vial in the central chamber and then release the thermal load from the vials through a top vent choke. The inner vial module holds 30 cryogenic vials and can be removed in one step. Each vial achieves a uniform and reproducible -1°C/minute freezing profile and thermal profiles are highly reproducible. Due to the low thermal mass of the uniform-density cross-linked polyethylene foam container, freezing can be conducted without a rise in local freezer temperature, thereby protecting nearby samples. CoolCell FTS30 utilizes a solid state core and controlled microconvection technology to evenly draw in -80°C freezer air through a bottom base vent, uniformly disperse the cold air around each vial in the central chamber and then release the thermal load from the vials through a top vent choke. The inner vial module holds 30 cryogenic vials and can be removed in one step. Each vial achieves a uniform and reproducible -1°C/minute freezing profile and thermal profiles are highly reproducible. Due to the low thermal mass of the uniform-density cross-linked polyethylene foam container, freezing can be conducted without a rise in local freezer temperature, thereby protecting nearby samples.
Product Detail© 2026 Copyright. All Rights Reserved.
© 2026 Copyright. All Rights Reserved.
