Other Polymer

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  1. Polybead® Poly(methyl methacrylate) Microspheres - Broad Distribution

    Polybead® Poly(methyl methacrylate) Microspheres - Broad Distribution

    开始于: NT$5,798.00

    Poly(methyl methacrylate) or PMMA is less hydrophobic than polystyrene and should show reduced nonspecific protein and peptide binding. The density of these beads, 1.19 g/cc, is considerably higher than that of polystyrene beads, making them easier to concentrate by centrifugation. The beads are not free of surfactant and contain surface carboxylic acid groups at higher concentration than the standard Polybead Polystyrene Carboxylate Microspheres.

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  2. Polybead® Poly(methyl methacrylate) Microspheres with Anionic Surfactant

    Polybead® Poly(methyl methacrylate) Microspheres with Anionic Surfactant

    开始于: NT$12,310.00

    Poly(methyl methacrylate) or PMMA is less hydrophobic than polystyrene and should show reduced nonspecific protein and peptide binding. The density of these beads, 1.19 g/cc, is considerably higher than that of polystyrene beads, making them easier to concentrate by centrifugation. The beads are not free of surfactant and contain surface carboxylic acid groups at higher concentration than the standard Polybead Polystyrene Carboxylate Microspheres.

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  3. Phenolic Beads, Hollow

    Phenolic Beads, Hollow

    开始于: NT$8,270.00

    In many uses of liquid resins, it is desirable to reduce the weight of the finished product. One way to reduce the weight below the original resin weight is to incorporate a suitable additive. Hollow phenolic microspheres are excellent for use in a variety of industrial applications. They are lightweight, chemically inert, and mechanically strong. They can be excellent adhesives, gap filling formulations, sandable putties, syntactic foams, and molded and laminated structures that must be lightweight and strong. About 30% by weight will make most resins unpourable. Filling casting are quite machinable; turns casting brown.

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  4. Poly(ethyl methacrylate) Beads

    Poly(ethyl methacrylate) Beads

    开始于: NT$5,798.00

    Tough methacrylate resin.

    Particle size (D50): 140-220µm

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  5. Poly(styrene/divinyl benzene), 98:2

    Poly(styrene/divinyl benzene), 98:2

    开始于: NT$9,886.00

    Beads for preparation of crosslinked poly(chloromethylstyrene) Merrifield resins and other functionalized beads.

    98:2 200-400 mesh

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  6. Polypropylene, Chromatographic Grade

    Polypropylene, Chromatographic Grade

    开始于: NT$5,798.00

    Widely used polyolefin. Soluble in: chlorinated hydrocarbons, aromatic hydrocarbons, isoamyl acetate.

    Chromatographic grade 25-85µm

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  7. Polybead® Poly(methyl methacrylate) Microspheres - Monodisperse

    Polybead® Poly(methyl methacrylate) Microspheres - Monodisperse

    开始于: NT$9,886.00

    Poly(methyl methacrylate) or PMMA is less hydrophobic than polystyrene and should show reduced nonspecific protein and peptide binding. The density of these beads, 1.19 g/cc, is considerably higher than that of polystyrene beads, making them easier to concentrate by centrifugation. The beads are not free of surfactant and contain surface carboxylic acid groups at higher concentration than the standard Polybead Polystyrene Carboxylate Microspheres.

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  8. Polybead® Crosslinked Melamine Particles

    Polybead® Crosslinked Melamine Particles

    开始于: NT$17,776.00

    These melamine particles are crosslinked by acid-catalyzed reaction with formaldehyde. The particles have a much higher density (1.51 g/cc) than polystyrene, are hydrophilic with amine and methylolamine groups, and, being crosslinked, are not noticeably swelled by organic solvents. The particles can be lyophilized and then redispersed in water. The particles are supplied as a suspension of 2.5% solids in water.

    ~1.00µm

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  9. Polypropylene, Chromatographic Grade

    Polypropylene, Chromatographic Grade

    开始于: NT$5,798.00

    Widely used polyolefin.

    Soluble in: chlorinated hydrocarbons, aromatic hydrocarbons, isoamyl acetate.

    Chromatographic grade 150µ

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  10. Polybead® Hollow Microspheres (0.40μm)

    Polybead® Hollow Microspheres (0.40μm)

    开始于: NT$9,601.00

    The biomedical advantages of a polystyrene surface are combined with a low effective density in a new class of microspheres. Polybead® Hollow Microspheres are spherical styrene / acrylic beads supplied in suspension. A relatively dense shell of a polystyrene based copolymer is formed around a void in the particle. Sphere voids are water-filled in the as-supplied 5% solids aqueous suspension, and the water-filled particle will have an effective density near 1.0 g/cm3. Water is lost from the void upon drying as the particles are slightly porous. This results in a hollow particle with a shell approximately 0.10µm thick. Surfactants on the surface of the spheres help stabilize the particles.

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  11. Polybead® Hollow Microspheres (0.55μm)

    Polybead® Hollow Microspheres (0.55μm)

    开始于: NT$9,601.00

    The biomedical advantages of a polystyrene surface are combined with a low effective density in a new class of microspheres. Polybead® Hollow Microspheres are spherical styrene / acrylic beads supplied in suspension. A relatively dense shell of a polystyrene based copolymer is formed around a void in the particle. Sphere voids are water-filled in the as-supplied 5% solids aqueous suspension, and the water-filled particle will have an effective density near 1.0 g/cm3. Water is lost from the void upon drying as the particles are slightly porous. This results in a hollow particle with a shell approximately 0.10µm thick. Surfactants on the surface of the spheres help stabilize the particles.

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  12. Polybead® Hollow Microspheres (1.00μm)

    Polybead® Hollow Microspheres (1.00μm)

    开始于: NT$9,601.00

    The biomedical advantages of a polystyrene surface are combined with a low effective density in a new class of microspheres. Polybead® Hollow Microspheres are spherical styrene / acrylic beads supplied in suspension. A relatively dense shell of a polystyrene based copolymer is formed around a void in the particle. Sphere voids are water-filled in the as-supplied 5% solids aqueous suspension, and the water-filled particle will have an effective density near 1.0 g/cm3. Water is lost from the void upon drying as the particles are slightly porous. This results in a hollow particle with a shell approximately 0.10µm thick. Surfactants on the surface of the spheres help stabilize the particles.

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