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Bioparticles

Magnetic Particles

Abvigen Magnetic Particles are spherical in shape, and paramagnetic in nature. Magnetic Particles are prepared by coating a layer of magnetite and polystyrene onto monodispersed polystyrene/sillia core particles.

Magnetic Particles can be used for cell separation, affinity purification, DNA probe assays, magnetic particle EIA, etc. We provide a comprehensive list of immunomagnetic bead products conjugated with different coating materials and functional groups in multiple sizes to meet your need for research and industrial prospect development.

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             300 nm

             1 um

              3 um

             30 um

Magnetic particles in the size range of 10 nm to 100 ¦Ìm are suitable for the separation at permanent magnets. They are available with different functional group:

Iron Oxide Nanoparticles

COOH

NH2

None

PEG

Oleic Acid

Azide

Streptavidin

Protein G


Functional Magnetic Particles

Plain

Carboxyl

Amine

Epoxy

Ni-NTA

NHS

Silanol

Avidin

Albumin

Biotin

PEI


Glutathione

SO3H

Maleimide

Phospholipid

PEG-NH2

PEG-COOH

Silica

Plain PLA


Sulfydryl/-SHWCX
HLB

C18 (SiO2)

C18 (PS)

Magnetic Particles Conjugates

Streptavidin

Protein A



Fluorescent PS Magnetic Particles


Green-Plain

Green-NH2

Green-COOH

Green-SA

Green-Biotin

Red-Plain

Red-NH2

Red-COOH

Red-SA

Red-Biotin

Orange-Plain

Orange-NH2

Orange-COOH

Orange-SA

Orange-Biotin

Blue-Plain

Blue-NH2

Blue-COOH

Blue-SA

Blue-Biotin


Fluorescent SiO2 Magnetic Particles

Green-Plain

Green-NH2

Green-COOH

Green-SA

Green-Biotin

Red-Plain

Red-NH2

Red-COOH

Red-SA

Red-Biotin

Orange-Plain

Orange-NH2

Orange-COOH

Orange-SA

Orange-Biotin

Blue-Plain

Blue-NH2

Blue-COOH

Blue-SA

Blue-Biotin

Magnetic Particles Conjugation Kit

Application

Medical diagnostics and treatments

Magnetic immunoassay

Waste water treatment

Electrochemical sensing

Supported enzymes and peptides

Catalyst support

Biomedical imaging

Cancer therapy

Information storage

Genetic engineering

Physical modeling


Highlights

Superparamagnetism

High binding capacity

Various material and functional groups selection

Highly reproducible results

Economical

Quick, easy and convenient magnetic separation procedures

Ideal for immunoprecipitation, cell isolation, DNA extraction, purification of protein, DNA and RNA

Range from 10 nm to 100 um in size