Overview of nano silica

Composition: Primarily composed of silicon dioxide (SiO2), similar to regular sand but on a much smaller scale.

Production: Nano silica can be produced through several methods such as sol-gel processes, vapor deposition, and plasma technology.

Applications: Due to its unique properties, nano silica finds applications in a wide range of fields including electronics, optics, biomedicine, and construction materials.

Features of nano silica

High Surface Area: One of the standout features of nano silica is its extremely high surface area relative to volume, which makes it highly reactive and useful for catalysis.

Enhanced Mechanical Properties: When added to other materials, nano silica can significantly improve mechanical strength, durability, and wear resistance.

Optical Properties: Depending on their size and shape, nano silica particles can manipulate light in interesting ways, making them useful in optical devices.

Biocompatibility: In biomedical applications, certain forms of nano silica are known for their biocompatibility and ability to deliver drugs within the body effectively.

Thermal Stability: Nano silica exhibits excellent thermal stability, allowing it to maintain its structure and properties at high temperatures.

(500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH))

Specification of 500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH)

These 500nm paramagnetic magnetic nanoparticles are coated with hydroxyl silica. They are developed particularly for DNA and RNA removal. The particles are magnetic. This suggests you can conveniently move them utilizing magnets. You use them to take down nucleic acids from complicated blends.

The core particle is 500 nanometers in size. This size uses a good equilibrium. It gives a huge area for binding nucleic acids. It likewise enables effective magnetic splitting up. The silica finishing is critical. It lugs hydroxyl (-OH) groups on its surface. These hydroxyl teams are key. They permit the bits to bind DNA and RNA efficiently under particular conditions.

You make use of these beads in standard magnetic splitting up protocols. Initially, you include the fragments to your example. Problems like high salt focus advertise binding. DNA and RNA stick to the hydroxyl teams on the silica surface. After that you use a magnet. The magnet holds the grains against the tube wall. You remove the undesirable liquid. Next off, you wash the grains. Cleaning removes pollutants. Ultimately, you elute the detoxified DNA or RNA. You make use of a low-salt buffer or water for elution. This launches the nucleic acids from the beads.

The paramagnetic nature is important. The bits are just magnetic when a magnet is near. This protects against clumping when the magnet is gotten rid of. It makes certain very easy resuspension throughout cleaning actions. The silica layer with hydroxyl teams gives high binding ability. It works well for both DNA and RNA throughout different sample kinds. The consistent 500nm size ensures constant performance. It leads to reputable returns and pureness. These beads are robust. They deal with typical extraction reagents without degrading. They integrate efficiently right into automatic fluid handling systems. They are also simple for hand-operated processing.

(500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH))

Applications of 500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH)

These 500nm magnetic grains are covered with silica and have hydroxyl (-OH) teams. They are essential for taking out DNA and RNA from numerous sample kinds. Their size and finishing make them best for this work.

The grains have a magnetic core inside. This core allows you move them using a magnet. You don’t require untidy spinning actions like older methods. Handling examples is much simpler. You keep every little thing in one tube a lot of the moment. This decreases contamination dangers.

The silica surface is necessary. DNA and RNA stick firmly to this silica surface area under certain conditions. We include particular salts and alcohol to the sample. This makes the nucleic acids bind to the beads. Various other things in the sample, like proteins, generally washes away. You hold the beads with a magnet. You pour off the fluid having the undesirable parts.

Next, you wash the beads while they are held by the magnet. Tidy barriers get rid of any kind of remaining contaminations. The beads remain adhered to television wall. Lastly, you add water or a special low-salt service. This breaks the bond. The pure DNA or RNA launches right into the clean fluid. You pull this fluid out. Your sample is ready for testing.

The hydroxyl teams aid. They make the silica surface area work well with the binding chemistry. This improves how much DNA or RNA you recuperate. The 500nm dimension is a good equilibrium. They move fast when you apply the magnet. They additionally have a large surface for binding lots of nucleic acid. They operate in many computerized systems also. Labs use them in high-throughput machines. They are reputable for delicate examinations like PCR and sequencing. These grains are found in several DNA and RNA extraction packages.

Company Introduction

Welcome to HiphopGalaxy, a trusted global supplier of high-quality silicon dioxide (SiO2) powder, renowned for its exceptional purity and performance. Established with a vision to deliver cutting-edge materials that meet the diverse needs of modern industries, we have positioned ourselves as a leading player in the international market.

Our SiO2 powders find applications across multiple sectors, including adhesives, coatings, pharmaceuticals, cosmetics, polymers, and electronics. Each application benefits from the unique properties of our products—high surface area, excellent thixotropy, chemical inertness, and superior reinforcement capabilities. Whether you need hydrophilic or hydrophobic variants, we offer tailored solutions to meet your specific requirements.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

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T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of 500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH)

Here are 5 common questions about our 500nm paramagnetic hydroxyl silica beads for DNA/RNA extraction:

What exactly are these magnetic beads?
These are tiny particles, 500 nanometers in size. They have a magnetic core. A silica shell surrounds this core. The shell surface has hydroxyl (-OH) groups attached.

How do these beads extract DNA or RNA?
You mix the beads with your sample containing nucleic acids. You add a special binding buffer. This buffer helps DNA or RNA stick tightly to the hydroxyl groups on the bead surface. Then you place the tube near a strong magnet. The beads collect quickly against the tube wall. You remove the leftover liquid easily. You wash the beads while they stay stuck to the magnet. Finally, you add water or a special elution buffer. This releases the clean DNA or RNA from the beads.

Why use paramagnetic beads instead of other methods?
These beads offer big advantages. They eliminate messy centrifugation steps. Magnetic separation is fast and simple. The process is gentle on your DNA or RNA. It gives high purity results. The method works well for automation. You save time and effort.

What’s special about the hydroxyl (-OH) coating?
The hydroxyl groups are key. They bind nucleic acids extremely well under the right buffer conditions. Silica with hydroxyl groups is the proven standard for reliable DNA and RNA purification. It gives consistent, high yields.

Are these beads easy to use in the lab?
Yes, they are straightforward. You need a standard magnetic separation rack. Follow the basic protocol steps: bind, wash, elute. The beads work reliably with common extraction buffers. They are stable and ready for your experiments.

(500nm paramagnetic hydroxyl silica coated magnetic Nano particles/beads for DNA/RNA extraction(-OH))