Magnetic Nanoparticles (600 nm)

Cat.No: SM-HMM-0072 Datasheet

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100 mL:

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1000 mL:

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Product Name	Magnetic Nanoparticles (600 nm)
Catalog No.	SM-HMM-0072
Description	This product is widely used in the fields of magnetic resonance imaging, magnetic separation, targeted drug carrier, tumor thermotherapy technology, cell labeling and separation as well as as as enhanced developer, contrast agent and retinal detachment repair surgery due to its stable magnetic properties, better biocompatibility, stronger magnetism and non-toxicity, etc. It can also be used as a catalyst carrier, microwave absorbing material and magnetic recording material.
Features	Superparamagnetic and highly magnetically responsive. Uniform particle size distribution.
Storage	Stable at 2-8°C (can be stored or transported at room temperature for short periods of time)
Shelf Life	2 years
Average Particle Size	600nm
Magnetic Core	Fe3O4
Magnetism Type	Superparamagnetic
Saturation Magnetization Strength	～55 emu/g
Preservation Fluid	Sterile water
Concentration	100 mg/mL

Magnetic nanoparticles have emerged as a pivotal class of functional materials in modern scientific research, driven by their unique combination of nanoscale properties and magnetic responsiveness. With the rapid advancement of nanotechnology, the demand for magnetic nanoparticles with well-defined characteristics—such as controlled particle size, stable magnetism, and biocompatibility—has surged across multiple research domains.
The 600 nm magnetic nanoparticles (Fe₃O₄-based) are engineered to address the specific needs of research applications that require larger particle sizes compared to conventional sub-100 nm magnetic nanoparticles. Their size range balances magnetic performance and dispersibility, making them suitable for scenarios where both strong magnetic responsiveness and compatibility with biological or chemical systems are essential.
Fe₃O₄ is chosen as the magnetic core due to its inherent superparamagnetic behavior, high saturation magnetization, and low toxicity—traits that are critical for research applications involving biological samples, environmental analysis, or advanced material development. The sterile water preservation fluid further ensures the product’s stability and purity, avoiding interference from contaminants in research experiments.

Superparamagnetic behavior enables rapid response to external magnetic fields without permanent magnetization, facilitating easy separation and reusability.
Highly uniform particle size distribution (targeting 600 nm) ensures consistent performance across experiments, reducing variability in research results.
High saturation magnetization (～55 emu/g) delivers strong magnetic responsiveness, enabling efficient separation and targeting in various applications.
Excellent biocompatibility and non-toxicity make it safe for use with biological samples, including cells, tissues, and biological fluids.
Stable magnetic properties under standard storage and short-term room temperature transport conditions, ensuring long-term usability (2-year shelf life).
Sterile water preservation fluid maintains product purity and avoids cross-contamination in sensitive research environments.
High dispersibility in aqueous systems supports easy integration into different experimental setups and reaction mixtures.

Optimized particle size (600 nm) fills the gap between smaller magnetic nanoparticles (for high dispersibility) and larger magnetic microspheres (for stronger magnetism), offering versatility for diverse research needs.
Fe₃O₄ magnetic core provides a superior balance of magnetic performance and biocompatibility compared to other magnetic materials, reducing experimental limitations.
Strict quality control ensures consistent particle size, magnetization strength, and purity, enhancing the reliability and reproducibility of research data.
Flexible storage conditions (2-8°C long-term, short-term room temperature) simplify logistics and reduce storage costs for research laboratories.
High concentration (100 mg/mL) allows for easy dilution to desired working concentrations, minimizing handling steps and potential contamination risks.
Non-toxic and biocompatible design expands application scope to include in vitro cell studies, biological separation, and diagnostic research without compromising sample integrity.

Research-grade magnetic nanoparticles are available in a range of particle sizes, from 50 nm to 1 μm, to accommodate different application requirements—smaller sizes (50-200 nm) are ideal for targeted drug delivery research and magnetic resonance imaging (MRI) contrast enhancement, while larger sizes (800 nm-1 μm) excel in high-speed magnetic separation and environmental pollutant removal studies. Other variants include surface-functionalized magnetic nanoparticles (e.g., amine-, carboxyl-, or streptavidin-modified) that enable specific binding to biomolecules, ligands, or target analytes, expanding their utility in immunoassays, biosensing, and cell labeling. Additionally, magnetic nanoparticles with alternative magnetic cores (e.g., γ-Fe₂O₃, CoFe₂O₄) are available for research requiring adjusted magnetic properties or chemical stability. If you are interested in related products, you can contact us directly or request product customization services.

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For research use only, not for clinical use.