Iron Oxide Nanoparticles

Details and Specifications of Iron Oxide Nanoparticles

Iron Oxide Nanoparticle, or IONPs, is tiny particles of iron oxide. Iron Oxide Nanoparticles is so small that it cannot be seen without a microscope. These particles have special features that makes it useful in many ways. Iron Oxide Nanoparticles include one key thing: it react to magnets. This means doctors can use it to take pictures of our bodies with MRI machines.

IONPs is also safe to use inside the body, which provides more ways to use it in medicine. For example, doctors might use IONPs to carry medicine to specific parts of the body, like cancer treatments for tumors. It can even help with factor therapy, a new way to treat some diseases. Scientists are still finding new ways to use IONPs. It can change the particles to work better for different jobs. This makes IONPs very flexible and valuable for many other uses. As research continues, we'll likely see even more clever ways to use IONPs in the future. These tiny particles could lead to big changes in medicine and other fields.

Technical Data of Iron Oxide Nanoparticles

• The size of Iron Oxide Nanoparticles is between 1 and 100 nanoparticles.
• The composition of IONSP  is magnetic (Fe3O), or it also has maghemite (y-Fe203).
• Its bulk density is between 0.5 and 1.0 grams per cubic centimeter.
• It is usually spherical, cubic, or hexagonal.
• It has superparamagnetic properties.
• Iron Oxide Nanoparticles is stable in the air and also in the water.
• Its melting point is around 2055 °C.
• It is non-toxic to living cells.
• Its surface area is between 100 and 1000 square meters per gram.

Features

• Iron Oxide Nanoparticles react strongly with magnets, making it useful for tasks related to magnetic fields.
• It is adaptable and biocompatible for delivering medicine or taking images inside the patient's body.
• It also helps to clean the environment by efficiently removing contaminants from the soil and water.
• Iron Oxide Nanoparticles make better electronic devices and speed up chemical reactions.
• It is used for making long-lasting, bright colors in paints and pottery.
• Researchers are looking into whether these particles might cause any harm to health or nature.
• Adjusting the surface properties can enrich stability and encourage specific applications.
• Doctors are testing how to use these particles to release medicine into the body at the right time and place.
• Special imaging machines help doctors see the inside of the body more clearly.
• Magnetic nanoparticles are also used to heat up and kill cancer cells.

Applications of Iron Oxide Nanoparticles

• It enhances the visibility in advanced medical scans as a contrast agent of MRI (Magnetic Recourse Imaging).
• It is used to transport medicines to precise bodily locations.
• It also facilitates the transfer of genetic materials to medical handle debt.
• It is also utilized in protein separations.
• Iron Oxide Nanoparticles is utilized in cancer magnetic nanotherapy.
• It also improves the sensitivity of laboratory diagnostic procedures.
• Boosting the effectiveness of immune system stimulants.

How to use?

• Choose appropriate nanoparticle particles based on their dimensions, form, and magnetic traits for the intended use.
• Apply a covering to these nanoparticles to enhance its interaction with the desired target.
• Introduce the particles into the body via injection, swallowing, or breathing.
• Employ an external magnetic force to guide the particles to the intended location if necessary.
• Stick strictly to the maker's guidelines for handling and usage.
• Work in a secure, controlled setting when dealing with these iron-rich microscopic entities.
• Maintain thorough records of particle usage and any observed effects or outcomes.
• Regularly review and update safety procedures for handling these advanced materials.

Safety Guidelines

To stay away from any danger, it is necessary to read the safety guidelines before using the product, so go through the safety measures which are given below:

• Prevent skin and eye exposure to nanoparticle iron-rich particles. If contact occurs, wash well with soap and water.
• Avoid consuming, smoking, or drinking where these particles are present or kept.
• Never dispose of these particles in regular trash or pour it down drains. Instead, proper disposal methods should be followed to protect the environment and public health.
• Seek immediate medical help if you breathe in these microscopic iron-based materials.
• Always use protective gear when handling these materials to minimize accidental exposure or contamination risks.
• Keep these iron-based micro-materials out of reach of children and household pets.

Why choose us?

Shilpent has specialized in crafting and delivering top-notch Iron Oxide Nanoparticles for over a decade. We offer a wide range, being the manufacturer and supplier of these nanoparticles, each with unique sizes, forms, and magnetic traits to meet specific customer needs. Our success stems from our focus on quality and fresh ideas. We take pride in our fair prices and excellent customer service. We're confident you'll be pleased with what we provide. Reach out today to learn about our current deals! Our team will help you find the perfect solution for your projects or research needs.