Nano Beads

  • TOOLS NanoBlue Beads

    TOOLS NanoBlue Beads

    TOOLS NanoBlue Beads is magnetic bead with blue fluorescent dye. The magnetic bead consists of single-crystal Fe3O4 magnetic sphere core and being coated with dextran dispersed in phosphate buffered saline (PBS) solution. The beads with blue fluorescent dye spectrally similar to the traditional blue fluorescent dye, AMCA. The NanoBlue Beads can be introduced into cells by microinjection, it can use to microscopy, flow cytometry, and magnetic resonance imaging (MRI). This product is highly hydrophilic, bio-compatible, and easy to use for cellular imaging research.

  • TOOLS NanoGreen Beads

    TOOLS NanoGreen Beads

    TOOLS NanoGreen Beads is magnetic bead with green fluorescent dye. The magnetic bead consists of single-crystal Fe3O4 magnetic sphere core and being coated with dextran dispersed in phosphate buffered saline (PBS) solution. The NanoGreen Beads can be introduced into cells by microinjection, it can use to microscopy, flow cytometry, and magnetic resonance imaging (MRI). This product is highly hydrophilic, bio-compatible, and easy to use for cellular imaging research.

  • TOOLS NanoRed Beads

    TOOLS NanoRed Beads

    TOOLS NanoRed Beads is magnetic bead with green fluorescent dye. The magnetic bead consists of single-crystal Fe3O4 magnetic sphere core and being coated with dextran dispersed in phosphate buffered saline (PBS) solution. The NanoRed Beads can be introduced into cells by microinjection, it can use to microscopy, flow cytometry, and magnetic resonance imaging (MRI). This product is highly hydrophilic, bio-compatible, and easy to use for cellular imaging research.

  • TOOLS Mag-Nano Carboxyl Labeling kit

    TOOLS Mag-Nano Carboxyl Labeling kit

     TOOLS Mag-Nano Carboxyl Labeling kit provides whole set of materials for researchers to bind the desired ligand onto magnetic beads conveniently. Molecules contain primary amine groups such as antibody, protein, or peptide, can be conjugated to the magnetic beads easily. The kit comprises of the magnetic beads with surface functional group -COOH and all of the necessary reagents for labeling. The conjugated magnetic beads can be used for immunoassay, targeting MRI and hyperthermia, cell separation, and other applications.

  • TOOLS Mag-Nano-Amine (30 nm)

    TOOLS Mag-Nano-Amine (30 nm)

    TOOLS Mag-Nano-Amine is magnetic bead with surface functional group -NH2. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the primary amino group (-NH2) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The magnetic beads with surface-reactive amino groups allow immobilization of ligands such as proteins, peptides, carbohydrates or other target specific molecules.

  • TOOLS Mag-Nano-Amine (60 nm)

    TOOLS Mag-Nano-Amine (60 nm)

    TOOLS Mag-Nano-Amine is magnetic bead with surface functional group -NH2. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the primary amino group (-NH2) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The magnetic beads with surface-reactive amino groups allow immobilization of ligands such as proteins, peptides, carbohydrates or other target specific molecules.

  • TOOLS Mag-Nano-Amine (90 nm)

    TOOLS Mag-Nano-Amine (90 nm)

    TOOLS Mag-Nano-Amine is magnetic bead with surface functional group -NH2. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the primary amino group (-NH2) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The magnetic beads with surface-reactive amino groups allow immobilization of ligands such as proteins, peptides, carbohydrates or other target specific molecules.

  • TOOLS Mag-Nano-Carboxyl (30 nm)

    TOOLS Mag-Nano-Carboxyl (30 nm)

    TOOLS Mag-Nano-Carboxyl is magnetic bead with surface functional group -COOH. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the carboxyl groups (-COOH) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. Through activation of Mag-Nano-Carboxyl with EDC, the ligands could be conjugated to the magnetic beads through primary amine groups such as antibody, protein, or peptide.

  • TOOLS Mag-Nano-Carboxyl (60 nm)

    TOOLS Mag-Nano-Carboxyl (60 nm)

    TOOLS Mag-Nano-Carboxyl is magnetic bead with surface functional group -COOH. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the carboxyl groups (-COOH) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. Through activation of Mag-Nano-Carboxyl with EDC, the ligands could be conjugated to the magnetic beads through primary amine groups such as antibody, protein, or peptide.

  • TOOLS Mag-Nano-Carboxyl (90 nm)

    TOOLS Mag-Nano-Carboxyl (90 nm)

    TOOLS Mag-Nano-Carboxyl is magnetic bead with surface functional group -COOH. The magnetic bead consists of a single-crystal Fe3O4 sphere core and dextran coating layer. Through chemical modification of dextran, the carboxyl groups (-COOH) are joined to the magnetic beads through a short hydrophilic linker. The hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. Through activation of Mag-Nano-Carboxyl with EDC, the ligands could be conjugated to the magnetic beads through primary amine groups such as antibody, protein, or peptide.

  • TOOLS Mag-Nano-Hydroxyl (30 nm)

    TOOLS Mag-Nano-Hydroxyl (30 nm)

    TOOLS Mag-Nano-Hydroxyl is the magnetic bead with hydroxyl groups -OH. The magnetic beads consist of single-crystal Fe3O4 sphere core coated with dextran dispersed in PBS solution. The structure of dextran provides a lot of hydroxyl groups –OH and this hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The beads are available for you to achieve rapid and efficient biomagnetic separation and ensure reliable and reproducible results.

  • TOOLS Mag-Nano-Hydroxyl (60 nm)

    TOOLS Mag-Nano-Hydroxyl (60 nm)

    TOOLS Mag-Nano-Hydroxyl is the magnetic bead with hydroxyl groups -OH. The magnetic beads consist of single-crystal Fe3O4 sphere core coated with dextran dispersed in PBS solution. The structure of dextran provides a lot of hydroxyl groups –OH and this hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The beads are available for you to achieve rapid and efficient biomagnetic separation and ensure reliable and reproducible results.

  • TOOLS Mag-Nano-Hydroxyl (90 nm)

    TOOLS Mag-Nano-Hydroxyl (90 nm)

    TOOLS Mag-Nano-Hydroxyl is the magnetic bead with hydroxyl groups -OH. The magnetic beads consist of single-crystal Fe3O4 sphere core coated with dextran dispersed in PBS solution. The structure of dextran provides a lot of hydroxyl groups –OH and this hydrophilic surface ensures the magnetic beads excellent dispersion ability and easy handling property in a wide variety of buffers. The beads are available for you to achieve rapid and efficient biomagnetic separation and ensure reliable and reproducible results.