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| Product | Description | |
|---|---|---|
| Magnetic Nanoparticles | Magnetic Nanoparticles. Group: Compounds nanoparticles. |  |
| Absolute Mag Amine Magnetic Nanoparticles, Cross-linked Dextran Coated, 300 nm | Absolute Mag Amine Magnetic Nanoparticles, Cross-linked Dextran Coated, 300 nm (# WHM-G088) are synthesized as a core of magnetite and coated with cross-linked dextran shell. These nanoparticles are designed with amino groups on the surface for the covalent binding of proteins, antibodies or other molecules by glutaraldehyde activation. These magnetic nanoparticles are cluster-typed shaped and can be separated with a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 10 mL. Product ID: WHM-G088. |  |
| Absolute Mag Amine Magnetic Nanoparticles, Dextran Coated, 1 μm | Absolute Mag Amine Magnetic Nanoparticles, Dextran Coated, 1 μm (# WHM-G301) are synthesized as a core of single-crystal Fe3O4 sphere and coated with dextran shell. The primary amino groups, modified on the dextran surface through a short hydrophilic linker, allow rapidly covalent binding of ligands such as proteins, peptides, carbohydrates or other target specific molecules at neutral to high pH. The dextran coatings ensure our magnetic beads excellent dispersibility and low non-specific binding. The ligand density is about 50 mM. Uses: Used in isolation of proteins and peptides and c-terminal coupling of peptides. Pack Sizes: 1 mL, 5 mL. Product ID: WHM-G301. | |
| Absolute Mag NHS Magnetic Nanoparticles, PGMA-coated, 180 nm | Absolute Mag NHS Magnetic Nanoparticles, PGMA-coated, 180 nm (# WHM-NC07) are iron oxide nanoparticles coated with poly-GMA (glycidyl methacrylate). And the nanoparticles have a high density of NHS (N-hydroxylsuccinimide) functional groups on the surface. Compounds with amine groups can be immobilized on NHS magnetic nanoparticles by covalent bond efficiently. Uses: Purification of target protein, immunoprecipitation and cell separation. Pack Sizes: 5 mg. Product ID: WHM-NC07. | |
| Absolute Mag PEG 300 Magnetic Nanoparticles, Dextran Coated, 250 nm | Absolute Mag PEG 300 Magnetic Nanoparticles, Dextran Coated, 250 nm (# WHM-G039) are synthesized as a core of magnetite and coated with dextran shell. These nanoparticles are designed with covalently bound polyethylene glycol (PEG 300). The nanoparticles are also available with other PEG-lengths on request. These magnetic nanoparticles are cluster-typed shaped and can be separated with a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 10 mL. Product ID: WHM-G039. | |
| Absolute Mag PEG-NH2 Magnetic Nanoparticles, Dextran Coated, 500 nm | Absolute Mag PEG-NH2 Magnetic Nanoparticles, Dextran Coated, 500 nm (# WHM-G051) are synthesized as a core of magnetite and coated with dextran shell. These nanoparticles are designed with PEG-NH2 groups on the surface for the covalent binding of proteins, antibodies or other molecules by glutaraldehyde activation. These magnetic nanoparticles are cluster-typed shaped and can be separated with a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 10 mL. Product ID: WHM-G051. | |
| Absolute Mag PEG-NH2 Magnetic Nanoparticles, Dextran-coated, 70 nm | Absolute Mag PEG-NH2 Magnetic Nanoparticles, Dextran-coated, 70 nm are synthesized as a flower-shaped core of iron oxide and coated with dextran shell. These magnetic nanoparticles are cluster-typed shaped. The particles can be separated only in a high-gradient magnetic field and can't be separated with a permanent magnet. These particles with PEG-NH2 functionalization on the surface can covalently bind with proteins, antibodies or other molecules by various methods directly. For example, the amino-based maleimide or SPDP is functionalized to bind the SH-functionalized biomolecules. Supplied in water without detergent addition. Uses: As a tracer for magnetic particle imaging, suitable for hyperthermia applications. Pack Sizes: 5 mL. Product ID: WHM-G380. | |
| Absolute Mag Plain Magnetic Nanoparticles, Dextran Coated, 500 nm | Absolute Mag Plain Magnetic Nanoparticles, Dextran Coated, 500 nm (# WHM-G043) are synthesized as a core of magnetite and coated with dextran shell. These nanoparticles are designed with unmodified dextran surface with cluster-typed shaped and can be separated with a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 10 mL. Product ID: WHM-G043. | |
| Absolute Mag Streptavidin Magnetic Dextran Nanoparticles, Dextran Coated, Fluorescent Green, 300 nm | Absolute Mag Streptavidin Magnetic Dextran Nanoparticles, Dextran Coated, Fluorescent Green, 300 nm (# WHM-G259) are coated with strepavidin on the surface for the direct binding of biotinylated molecules, labeled with DY-490. These magnetic particles can be separated by a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 1 mL. Product ID: WHM-G259. | |
| Amino-Functionalized Magnetic Nanoparticles(5mg/mL,0.5-0.6μm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with rich primary aliphatic amino groups, and can be used for further functionalization. Uses: Amino group functionalized magnetic nanoparticles can be used in diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Carboxyl-Functionalized Magnetic Nanoparticles(5mg/mL,0.5-0.6μm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with rich carboxyl groups, and can be used for further functionalization. Uses: Carboxyl functionalized magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Epoxy-Functionalized Magnetic Nanoparticles(30mg/mL,0.5-0.6μm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with rich carboxyl groups, and can be used for further functionalization. Uses: Epoxy functionalized magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Hydrophobic Magnetic Nanoparticles(30mg/mL,500nm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with alkane. Group: Nanospheres. 99.99%. | |
| Iron oxide (II,III) magnetic nanoparticles solution | 5 nm avg. part. size (TEM), carboxylic acid functionalized, 5 mg/mL Fe in H2O, dispersion. Group: Iron oxide nanoparticles. |  |
| Iron oxide (II,III) magnetic nanoparticles solution | Iron oxide (II,III) magnetic nanoparticles solution. Group: Nanoparticles. | |
| Iron oxide(II,III) magnetic nanoparticles solution | Iron oxide(II,III) magnetic nanoparticles solution. Group: Nanoparticles. | |
| Iron Oxide(II,III), Magnetic Nanoparticles Solution | Iron Oxide(II,III), Magnetic Nanoparticles Solution. Group: 3d printing materials nanoparticles. CAS No. 1317-61-9. Pack Sizes: 5 mL. Molecular formula: 231.53 g/mol. | |
| Magnetic Fe2O3 Nanoparticles | Magnetic Fe2O3 Nanoparticles. Group: Nanospheres. | |
| Magnetic Fe3O4 Nanoparticles | Magnetic Fe3O4 Nanoparticles. Group: Nanospheres. | |
| Magnetic iron oxide nanoparticles | Magnetic iron oxide nanoparticles. Group: Nanoparticles. | |
| PAMAM Magnetic Nanoparticles | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with poly(ethylenimine) (PEI), and has rich amine groups, which can be used for further functionalization. Uses: Pei coated magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| PEI Magnetic Nanoparticles(30mg/mL,15nm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with poly(ethylenimine) (PEI), and has rich amine groups, which can be used for further functionalization. Uses: Pei coated magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Protein A Magnetic Nanoparticles | The surface of the supperparamagnetic Fe3O4 nanoparticles is covalently functionalized with Protein A, and can be used to bind IgG antibodies to the particle surface. Uses: Protein a coupled magnetic nanoparticles can be used in the industry of immunoprecipitation, antibody purification. Group: Nanospheres. | |
| Protein G Magnetic Nanoparticles | The surface of the supperparamagnetic Fe3O4 nanoparticles is covalently functionalized with Protein G, and can be used to bind IgG antibodies to the particle surface. Uses: Protein g coupled magnetic nanoparticles can be used in the industry of immunoprecipitation, antibody purification. Group: Nanospheres. | |
| PVA Magnetic Nanoparticles(30mg/mL,15nm) | The surface of the super paramagnetic Fe3O4 nanoparticle is covalently functionalized with Polyvinyl acetate (PVA), and has rich amine groups, which can be used for further functionalization. Uses: Pva coated magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Silanol-Functionalized Magnetic Nanoparticles | The surface of the supperparamagnetic Fe3O4 nanoparticle is covalently functionalized with rich SiOH groups, and can be used for further functionalization. Uses: Silanols functionalized magnetic nanoparticles can be used in the area of diagnostic immunoassay, gene transfection, biomolecule separation, cell separation, enzyme immobilization, drug delivery, and biomedical imaging. Group: Nanospheres. | |
| Streptavidin Magnetic Nanoparticles | The surface of the supperparamagnetic Fe3O4 nanoparticles is covalently functionalized with streptavidin, and can be used to bind to biotin-functionalized molecules. Uses: Streptavidin coupled magnetic nanoparticles can be used in bead-based ivd assay, dna and rna purification, protein isolation and analysis. Group: Nanospheres. | |
| (3-Aminopropyl)trimethoxysilane | 97%. Uses: Aptms can be multilayered on siox substrates by a layer by layer self assembly. aptms has also been used as a silane coupling agent on silver nanoparticles.aptms is used for the synthesis of gold nano-bipyramids which can be used as substrates for c-reactive protein (crp) antibodies that were detected by localized surface plasmon resonance(lspr). mesoporous silica matrix can be incorporated with aptms for the removal of chromium (cr) from waste water. it can also be used to silanize magnetic iron oxide nanoparticles(mionps) for the separation of cross-linked enzyme aggregations (cleas) from the reaction medium. it may be coated on tio2 to improve the power conversion efficiency (pce) as a critical parameter to assess the overall performance of heterojunction perovskite solar cells (pscs). Group: Saltself-assembly materials. Alternative Names: 3-(Trimethoxysilyl)propylamine. CAS No. 13822-56-5. Pack Sizes: 5 mL/100 mL/500 mL. Product ID: 3-trimethoxysilylpropan-1-amine. Molecular formula: 179.29 g/mol. Mole weight: C6H17NO3Si. CO[Si](CCCN)(OC)OC. InChI=1S/C6H17NO3Si/c1-8-11(9-2, 10-3)6-4-5-7/h4-7H2, 1-3H3. SJECZPVISLOESU-UHFFFAOYSA-N. 0.97. | |
| Absolute Mag Azide Magnetic Particles, Dextran Coated, 50 nm | Absolute Mag Azide Magnetic Particles, Dextran Coated, 50 nm (Cat# WHM-P003) are superparamagnetic iron oxide nanoparticles with a dextran coating. Dextran coating magnetic nanoparticles are functionalized with Azide groups to click probes for click chemistry, also for PET or SPECT imaging by clicking radioisotopes. They have a blood half-life of several hours. Uses: Mri contrast agent for functional studies and for conversation to a nuclear imaging agent using click chemistry attachment of a radioisotope. Pack Sizes: 1 mL. Product ID: WHM-P003. | |
| Absolute Mag Carboxyl Gold Coated Magnetic Particles, 100 nm | 100 nm diameter gold coated magnetic nanoparticles with COOH groups on the surface, supplied in water. Pack Sizes: 1 mL. Product ID: WHM-GC037. | |
| Absolute Mag Chitosan Magnetic Particles, Polysaccharide, 100 nm | Absolute Mag Chitosan Magnetic Particles, Polysaccharide, 100 nm (# WHM-C133) are ferrofluids consisting of an aqueous dispersion of magnetic iron oxides with diameters of 100 nm. The matrix of the beads contains polysaccharide and with ß-(1-4)-linked D-glucosamine and N-acetyl-D-glucosamine, which can be used for cell seperation and protein immobilization. Uses: The chitosan magnetic nanoparticles are intended for binding to biomolecules, and further can be used for mri-diagnostics and magnetic drug targeting applications. Pack Sizes: 1 mL. Product ID: WHM-C133. | |
| Absolute Mag Chitosan Magnetic Particles, Polysaccharide, 50 nm | Absolute Mag Chitosan Magnetic Particles, Polysaccharide, 50 nm (# WHM-C132) are ferrofluids consisting of an aqueous dispersion of magnetic iron oxides with diameters of 50 nm. The matrix of the beads contains polysaccharide and with ß-(1-4)-linked D-glucosamine and N-acetyl-D-glucosamine, which can be used for cell seperation and protein immobilization. Uses: The chitosan magnetic nanoparticles are intended for binding to biomolecules, and further can be used for mri-diagnostics and magnetic drug targeting applications. Pack Sizes: 1 mL. Product ID: WHM-C132. | |
| Absolute Mag Citrate Gold Coated Magnetic Particles, 15 nm | Magnetic nanoparticles coated with gold add new properties (inertness, protection of the magnetic core against oxidation, optical properties) to those of the magnetic particles, without modifying their superparamagnetic behaviour. Gold shell is coated with citrate anions which can be displaced with a wide range of molecules containing a thiol (SH) group. Once functionalized, they can be employed as platforms for many applications such as target-specific drug delivery, biosensors, lateral flow tests, flow cytometry, cancer photothermal therapy. These particles have a mean shell thickness of 3 nm, the final size of gold coated magnetic particles is ~15 nm. Uses: Magnetic separation; biosensing; magnetic hyperthermia; drug delivery. Pack Sizes: 1 mL. Product ID: WHM-GC015. | |
| Absolute Mag Citrate Gold Coated Magnetic Particles, 50 nm | Magnetic nanoparticles coated with gold add new properties (inertness, protection of the magnetic core against oxidation, optical properties) to those of the magnetic particles, without modifying their superparamagnetic behaviour. Gold shell is coated with citrate anions which can be displaced with a wide range of molecules containing a thiol (SH) group. Once functionalized, they can be employed as platforms for many applications such as target-specific drug delivery, biosensors, lateral flow tests, flow cytometry, cancer photothermal therapy. These particles have a mean shell thickness of 20 nm and a core diameter of 10 nm, the final size of gold coated magnetic particles is ~50 nm. Uses: Magnetic separation; biosensing; magnetic hyperthermia; drug delivery. Pack Sizes: 1 mL. Product ID: WHM-GC013. | |
| Absolute Mag Fluorescent Streptavidin Magnetic Particles, 100 nm, Excitation 647 nm | Absolute Mag Fluorescent Streptavidin Magnetic Particles, 100 nm, Excitation 647 nm (# WHM-ME647) are synthesized as a core of magnetite and coated with crosslinked hydroxyethyl starch shell. These nanoparticles are designed with streptavidin on the surface, and can be separated with conventional permanent magnets. Excitation 647 nm, Emission 671 nm. Iron concentration: 3 mg/mL. Polydispersity index < 0.2. Pack Sizes: 1 mL. Product ID: WHM-ME647. | |
| Absolute Mag Ni-NTA Magnetic Particles, Dextran-coated, 500 nm | Absolute Mag Ni-NTA Magnetic Nanoparticles, Dextran Coated, 500 nm (# WHM-G213) are synthesized as a core of magnetite and coated with dextran shell. These nanoparticles are designed with Ni-NTA on the surface for the binding of histidine labeled proteins. These magnetic nanoparticles are cluster-typed shaped and can be separated with a permanent magnet. Polydispersity index: < 0.2. Pack Sizes: 10 mL. Product ID: WHM-G213. | |
| Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 10 nm | Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 10 nm (# WNM-C002) are superparamagnetic nanoparticles with oleic acid surface ligand. Magnetization: >45 emu/g. Uses: Used as probing agents to indirectly study the structure of mixed sams, solid phase extraction, anode materials for li-ion batteries, and electromagnetic interference (emi) shielding materials. Pack Sizes: 2 mL, 5 mL, 10 mL. Product ID: WNM-C002. | |
| Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 20 nm | Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 20 nm (# WNM-C003) are superparamagnetic nanoparticles with oleic acid surface ligand. Magnetization: >20 emu/g. Uses: Used as probing agents to indirectly study the structure of mixed sams, solid phase extraction, anode materials for li-ion batteries, and electromagnetic interference (emi) shielding materials. Pack Sizes: 2 mL, 5 mL, 10 mL. Product ID: WNM-C003. | |
| Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 5 nm | Absolute Mag Oleic Acid Coated Iron Oxide Nanoparticles, 5 nm (# WNM-C001) are superparamagnetic nanoparticles with oleic acid surface ligand. Magnetization: >30 emu/g. Uses: Used as probing agents to indirectly study the structure of mixed sams, solid phase extraction, anode materials for li-ion batteries, and electromagnetic interference (emi) shielding materials. Pack Sizes: 2 mL, 5 mL, 10 mL. Product ID: WNM-C001. | |
| Absolute Mag PEI Magnetic Particles, 200 nm | Absolute Mag PEI Magnetic Particles, 200 nm (# WHM-X072) are water soluble iron oxide particles with organic layers consist of a monolayer of oleic acid, a monolayer of amphiphilic polymer and a monolayer of polyethylenimine (PEI). There is no linkable reactive groups on the surface of nanoparticles. PEI is very stable in most buffer solutions of pH 5-10 and can capture negatively charged molecules, such as DNA and RNA, through charge-charge interaction. Uses: The pei magnetic particles can capture negatively charged molecules, such as dna and rna, through charge-charge interaction. Pack Sizes: 5 mL. Product ID: WHM-X072. | |
| Absolute Mag PVP Coated Magnetic Particles, 20 nm | Absolute Mag PVP Coated Magnetic Particles, 20 nm (# WHM-NM01) are superparamagnetic iron oxide (Fe3O4) nanoparticles and are functionalized with polyvinylpyrrolidone (PVP), approximately 20 nm in diameter measured by TEM. The hydrodynamic size of the particles is about 40 nm. The size, non-toxicity, and superparamagnetic properties of the magnetite nanoparticles make them of interest for applications in many fields, including catalysis, biosensors, ferrofluids, magnetic eparations and MRI contrast agents. Endotoxin Concentration< 5 EU/mL, zeta potential is from -30 to -65 mV. Pack Sizes: 1 mL, 5 mL. Product ID: WHM-NM01. | |
| Absolute Mag Streptavidin Magnetic Particles, Crosslinked Dextran-coated, Fluorescent Far Red, 100 nm | Absolute Mag Streptavidin Magnetic Particles, Crosslinked Dextran-coated, Fluorescent Far Red, 100 nm (# WHM-M091) are synthesized as a core of magnetite and a coating of crosslinked dextran with far-red fluorescence (excitation: 732 nm, emission: 758 nm), having streptavidin surface. These magnetic nanoparticles are cluster-typed shaped and can be separated with conventional permanent magnets. Polydispersity index: < 0.2. Pack Sizes: 1 mL. Product ID: WHM-M091. | |
| Adipic Acid Dihydrazide | Adipic Acid Dihydrazide is used to functionalize magnetic nanoparticles for gylcopeptitde enrichment and identification. Adipic Acid Dihydrazide can also be used as a chain extension for liquid rubber. Group: Biochemicals. Grades: Highly Purified. CAS No. 1071-93-8. Pack Sizes: 25g, 50g. Molecular Formula: C6H14N4O2. US Biological Life Sciences. |  Worldwide |
| Alumina (Al2O3) Crucible | Alumina (Al2O3) Crucible. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Crucible, Alumina Crucible, Al2O3 Ceramic Crucible, Alumina Ceramic Crucible. 99%. | |
| Alumina (Al2O3) Custom Parts | Alumina (Al2O3) Custom Parts. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Custom Parts, Alumina Custom Parts, Al2O3 Ceramic Custom Parts, Alumina Ceramic Custom Parts. 99%. | |
| Alumina (Al2O3) Mortar and Pestle | Alumina (Al2O3) Mortar and Pestle. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Mortar and Pestle, Alumina Mortar and Pestle, Al2O3 Ceramic Mortar and Pestle, Alumina Ceramic Mortar and Pestle. 99%. | |
| Alumina (Al2O3) Plate, Sheet | Alumina (Al2O3) Plate, Sheet. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Plate, Sheet, Alumina Plate, Sheet, Al2O3 Ceramic Plate, Sheet, Alumina Ceramic Plate, Sheet. 99%. | |
| Alumina (Al2O3) Rod | Alumina (Al2O3) Rod. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Rod, Alumina Rod, Al2O3 Ceramic Rod, Alumina Ceramic Rod. 99%. | |
| Alumina (Al2O3) Tube, Ring | Alumina (Al2O3) Tube, Ring. Group: Magnetic nanoparticles. Alternative Names: Al2O3 Tube, Ring, Alumina Tube, Ring, Al2O3 Ceramic Tube, Ring, Alumina Ceramic Tube, Ring. 99%. | |
| Aluminum (Al) | Aluminum (Al). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum (Al); 99.99% Aluminum (Al); 99.999% Aluminum (Al); 99.9999% Aluminum (Al). 4N-6N. | |
| Aluminum (Al) Evaporation Material | Aluminum (Al) Evaporation Material. Group: Magnetic nanoparticles. Alternative Names: Al Pellets, Al Wire, Al Pieces, Aluminum Pellets, Aluminum Wire, Aluminum Pieces, Aluminum Evaporation Material, Al Evaporation Material, Al Evapor Materials, Aluminum Evapor Materials. 99.999%. | |
| Aluminum (Al) Sputtering Targets | Aluminum (Al) Sputtering Targets. Group: Magnetic nanoparticles. Alternative Names: Aluminum (Al) Sputtering Targets, Al Sputtering Target, Al Sputter Target, Al Target, Aluminum Sputtering Target, Aluminum Sputter Target, Aluminum Target. 99.999%-99.9995%. | |
| Aluminum Carbide (Al4C3) | Aluminum Carbide (Al4C3). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum Carbide (Al4C3); 99.9% Aluminum Carbide (Al4C3); 99.99% Aluminum Carbide (Al4C3); ; high purity tetraaluminium tricarbide; high purity Aluminum Carbide. 3N-4N. | |
| Aluminum Chloride (AlCl3) | Aluminum Chloride (AlCl3). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum Chloride (AlCl3); High Purity Aluminum Chloride Anhydrous (AlCl3). 5N. | |
| Aluminum Fluoride (AlF3) | Aluminum Fluoride (AlF3). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum Fluoride (AlF3); 99.9% Aluminum Fluoride (AlF3); 99.99% Aluminum Fluoride (AlF3); ; high purity aluminium trifluoride; high purity aluminium(III) fluoride; high purity aluminium fluoride; high purity aluminum fluoride; high purit. 3N-4N. | |
| Aluminum Nitride (AlN) | Aluminum Nitride (AlN). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum Nitride (AlN); 99.9% Aluminum Nitride (AlN); 99.99% Aluminum Nitride (AlN); ; high purity aluminium nitride; high purity aluminium(III) nitride; high purity aluminum nitride; high purity aluminum(III) nitride. 3N-4N. | |
| Aluminum Nitride (AlN) Powder | Aluminum Nitride (AlN) Powder. Group: Magnetic nanoparticles. Alternative Names: aluminium nitride; aluminium(III) nitride; aluminum nitride; aluminum(III) nitride. 99.9%. | |
| Aluminum Nitride (AlN) Substrate | Aluminum Nitride (AlN) Substrate. Group: Magnetic nanoparticles. Alternative Names: AlN Substrate, Aluminum Nitride Substrate, AlN Ceramic Substrate, Aluminum Nitride Ceramic Substrate. 99%, 99.7%. | |
| Aluminum Oxide (Al2O3) | Aluminum Oxide (Al2O3). Group: Magnetic nanoparticles. Alternative Names: High Purity Aluminum Oxide (Al2O3); 99.99% Aluminum Oxide (Al2O3); 99.999% Aluminum Oxide (Al2O3); ; high purity aluminia; high purity aluminium (III) oxide; high purity dialuminum trioxide; high purity corundum. 4N-5N. | |
| Aluminum Silicon (Al-Si) Alloy Sputtering Targets | Aluminum Silicon (Al-Si) Alloy Sputtering Targets. Group: Magnetic nanoparticles. Alternative Names: Aluminum Silicon (Al-Si) Alloy Sputtering Targets, Al-Si Alloy Sputtering Target, Al-Si Alloy Sputter Target, Al-Si Alloy Target, Aluminum Silicon Alloy Sputtering Target, Aluminum Silicon Alloy Sputter Target, Aluminum Silicon Alloy Target. 99.99%. | |
| Aluminum Silver (Al-Ag) Alloy Sputtering Targets | Aluminum Silver (Al-Ag) Alloy Sputtering Targets. Group: Magnetic nanoparticles. Alternative Names: Aluminum Silver (Al-Ag) Alloy Sputtering Targets, Al-Ag Alloy Sputtering Target, Al-Ag Alloy Sputter Target, Al-Ag Alloy Target, Aluminum Silver Alloy Sputtering Target, Aluminum Silver Alloy Sputter Target, Aluminum Silver Alloy Target. 99.99%. | |
| Ammonium Fluoride (NH4F) | Ammonium Fluoride (NH4F). Group: Magnetic nanoparticles. Alternative Names: Ammoniumfluoride (8ci), Ammonium Fluoride (fh4n), Neutral Ammonium Fluoride. 99%-99.99%. | |
| Ammonium hexachloroiridate(IV) | Ammonium hexachloroiridate(IV). Group: Magnetic nanoparticles. | |
| Ammonium hexachloroplatinate(IV) | Ammonium hexachloroplatinate(IV). Group: Magnetic nanoparticles. | |
| Ammonium hexachlororhodate(III) | Ammonium hexachlororhodate(III). Group: Magnetic nanoparticles. | |
| Ammonium hexachlororuthenate(IV) | Ammonium hexachlororuthenate(IV). Group: Magnetic nanoparticles. | |
| Ammonium tetrachloroaurate(III) | Ammonium tetrachloroaurate(III). Group: Magnetic nanoparticles. | |
| Ammonium tetrachloropalladate | Ammonium tetrachloropalladate. Group: Magnetic nanoparticles. | |
| Ammonium tetrachloroplatinate(II) | Ammonium tetrachloroplatinate(II). Group: Magnetic nanoparticles. | |
| Barium (Ba) | Barium (Ba). Group: Magnetic nanoparticles. Alternative Names: High Purity Barium (Ba); 99.9% Barium (Ba); 99.99% Barium (Ba). 3N-4N. | |
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