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Products

  • 60mm Bacteriological Petri Dish

    60mm Bacteriological Petri Dish

    Product Features

    1. Using 100% original packaging imported plastic material.

    2. Uniform thickness, no distortion at the bottom.

    3. The circular protrusion on the cover closely integrates with the bottom, facilitating storage and reducing medium evaporation.

    4. Surface treatment and untreated two options are available.

    5. Transparency: Clear plastic allows for easy observation of growth and changes in cultures.

    6. Sterility: Available in sterile packaging, reducing the risk of contamination in sensitive experiments.

    7. Compatibility: Can be used with a variety of media types, tailored to specific microbial or cell culture needs.

  • White Disposable Latex Gloves

    White Disposable Latex Gloves

     

    White Disposable Gloves, Latex, size S/M/L , fingers textured, powder free, pack of 100.

    1. S/M/L size.

    2. AQL 4.0.

    3. Natural white color.

    4. Flat with rolled edge

    5. Dispenser containing 100 single-use latex gloves.

     

    The ideal gloves for all applications which require a high tactile sensitivity.

    1. Skin-friendly, high levels of tactility and dexterity.

    2. High durability due to special formulation.

    3. Powder free for reduced irritation risk.

    4. Fingers Textured.

    5. Elastic Fabric.

    6. Sanitary.

    7. Ambidextrous.

  • GSBIO Nucleic Acid Extraction Magnetic Beads

    GSBIO Nucleic Acid Extraction Magnetic Beads

     

    GSBIO Nucleic Acid Extraction Magnetic Beads or GSBIO Silicon Hydroxyl Magnetic Bead (- SI-OH) has a superparamagnetic core and a silica shell with a lot of silane alcohol groups for efficient capture of nucleic acids.

    Traditional methods for isolating nucleic acids (DNA or RNA) include centrifugation or phenol-chloroform extraction.

    Magnetic separation using silicon hydroxyl magnetic beads is ideal for extracting nucleic acids, which can be rapidly and safely isolated from biological samples by mixing silicon hydroxyl magnetic beads with chaotropic salts.