Product Introduction:
The size of nano magnetic beads provided by Alfa Chemistry varies from 100 nm to 500 nm. They are specially designed magnetic particles for the fields of biotechnology, life sciences and medical research. The surface of the magnetic beads can be modified with various coatings or functional groups to achieve specific binding to target molecules.
Our Products
Carboxyl Nano Magnetic Beads
Amino Nano Magnetic Beads
Silanol Nano Magnetic Beads
Streptavidin Nano Magnetic Beads
PEI Modified Nano-magnetic Beads
Carboxylated Dextran Coated Fe3O4 Nanoparticles
Hollow Magnetic Beads
Carboxyl nano magnetic beads can be covalently coupled with biological ligands such as peptides, proteins, and antibodies under the action of chemical coupling reagents (e.g., EDC), and are used in immunochromatography, affinity purification, cell sorting, and biosensors.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm Carboxyl Nano Magnetic Beads | GH-Mag001 | -COOH | 100±20 nm | 10 mg/mL | Ultrapure water |
| 200 nm Carboxyl Nano Magnetic Beads | GH-Mag002 | -COOH | 200±50 nm | 10 mg/mL | Ultrapure water |
| 300 nm Carboxyl Nano Magnetic Beads | GH-Mag003 | -COOH | 300±50 nm | 10 mg/mL | Ultrapure water |
Amino nano magnetic beads can be covalently coupled with biological ligands such as peptides, proteins, oligonucleotides, biological enzymes, and drug molecules through the action of chemical coupling reagents (e.g., glutaraldehyde), and can be used as a good basic material for functional modification.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm Amino Nano Magnetic Beads | GH-Mag004 | -NH2 | 100±20 nm | 10 mg/mL | Ultrapure water |
| 200 nm Amino Nano Magnetic Beads | GH-Mag005 | -NH2 | 200±50 nm | 10 mg/mL | Ultrapure water |
| 300 nm Amino Nano Magnetic Beads | GH-Mag006 | -NH2 | 300±50 nm | 10 mg/mL | Ultrapure water |
Silanol nano magnetic beads can be used for nucleic acid extraction and purification of plants, animals, whole blood, serum free, saliva, viruses, bacteria, plasmids, soil, forensic samples, as well as PCR product purification and fragment sorting. They can be combined with automated nucleic acid extraction workstation for high-throughput and automatic operation.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm Silanol Nano Magnetic Beads | GH-Mag007 | -SiOH | 100±20 nm | 10 mg/mL | Ultrapure water |
| 200 nm Silanol Nano Magnetic Beads | GH-Mag008 | -SiOH | 200±50 nm | 50 mg/mL | Ultrapure water |
| 300 nm Silanol Nano Magnetic Beads | GH-Mag009 | -SiOH | 300±50 nm | 10 mg/mL | Ultrapure water |
Streptavidin nano magnetic beads can be efficiently coupled with biotinylated peptides, proteins, antibodies and other biological ligands, and can be used for immunoassay, gene analysis and purification of PCR products.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm Streptavidin Nano Magnetic Beads | GH-Mag010 | SA | 100±20 nm | 10 mg/mL | Ultrapure water |
| 200 nm Streptavidin Nano Magnetic Beads | GH-Mag011 | SA | 200±50 nm | 10 mg/mL | Ultrapure water |
| 300 nm Streptavidin Nano Magnetic Beads | GH-Mag012 | SA | 300±50 nm | 10 mg/mL | Ultrapure water |
PEI modified nano-magnetic beads have high specific surface area, high loading and high surface positive charge. The surface of the product has a large number of amino groups, which can be covalently coupled with biological ligands such as peptides, proteins, oligonucleotides, enzymes, and drug molecules through the action of chemical coupling reagents (e.g., glutaraldehyde), and can be used as a good basic material for functional modification.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm PEI Modified Nano-magnetic beads | GH-Mag013 | -NH2 | 100±20 nm | 1 mg/mL | Ultrapure water |
| 200 nm PEI Modified Nano-magnetic beads | GH-Mag014 | -NH2 | 200±50 nm | 1 mg/mL | Ultrapure water |
| 300 nm PEI Modified Nano-magnetic beads | GH-Mag015 | -NH2 | 300±50 nm | 1 mg/mL | Ultrapure water |
Carboxylated dextran coated Fe3O4 nanoparticles are superparamagnetic. This type of magnetic nanoparticles can effectively ensure efficient coupling of antibodies and high anti-nonspecific adsorption, as well as homogeneity of reaction and consistency of detection. The product can be used in biomedical fields such as magnetic resonance imaging, magnetic separation, cell labeling and separation.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 100 nm Carboxylated Dextran Coated Fe3O4 Nanoparticles | GH-Mag016 | Carboxylated dextran | 100±20 nm | 4 mg/mL | Ultrapure water |
Hollow magnetic beads have the characteristics of high magnetism, low density and high specific surface area. In addition, their hollow portions can accommodate a large number of guest molecules or large-sized guests. These characteristics make hollow magnetic beads have important application prospects in many technological fields such as microwave absorbing materials and drug delivery.
| Product Name | Catalog Number | Surface Group | Particle Size | Concentration | Solvent |
| 400 nm Hollow Magnetic Beads | GH-Mag017 | -OH | 400±20 nm | 10 mg/mL | Ultrapure water |
