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.

(2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2))

Specification of 2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2)

The 2018 5ml/50ml Superparamagnetic Mino Silica Coated Magnetic Nano Particles/Beads for DNA/RNA Extraction (-NH2) are designed for high-performance nucleic acid isolation. The particles have a uniform size range of 50-100nm. This ensures consistent binding efficiency. The superparamagnetic property allows quick magnetic response. It prevents residual magnetism. Aggregation issues are avoided during separation.

The silica-coated surface enhances nucleic acid binding. Chaotropic salt solutions are used during extraction. Under high salt conditions, DNA/RNA adsorbs to the silica layer. Low salt buffers release purified nucleic acids. This process is efficient for both small and large sample volumes. The amino (-NH2) functional groups improve binding capacity. They strengthen interaction with negatively charged nucleic acids. This is critical for recovering low-concentration or fragmented targets.

The beads work with manual and automated systems. They suit applications in research labs, clinical diagnostics, and industrial settings. Processing time is reduced. No centrifugation or filtration is needed. Samples stay intact. Contamination risks are minimized.

Performance remains stable across pH 3-10. Temperatures up to 60°C do not affect functionality. The product is compatible with common lysis buffers and enzymes. Organic solvents like ethanol or isopropanol are usable.

Each batch undergoes strict quality checks. Size distribution is verified by dynamic light scattering. Magnetic responsiveness is tested with high-gradient magnetic separation. Binding capacity is validated using standardized DNA/RNA samples.

The 5ml option suits small-scale experiments. The 50ml size supports high-throughput workflows. Storage is simple. Beads are supplied in aqueous suspension. Room-temperature storage is acceptable. Long-term stability lasts up to two years.

Safety guidelines recommend gloves and lab coats during handling. Direct inhalation or skin contact should be avoided. Waste disposal follows local regulations for nanomaterials.

Applications include plasmid purification, viral RNA extraction, and microbiome studies. The beads adapt to plant, animal, or bacterial samples. They perform well with challenging materials like soil or blood.

(2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2))

Applications of 2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2)

The 2018 5ml/50ml superparamagnetic mino silica-coated magnetic nanoparticles/beads (-NH2) are designed for DNA/RNA extraction. These particles combine silica surfaces with amino-functionalized coatings. The silica binds nucleic acids under high chaotropic salt conditions. The amino groups enhance interaction with DNA/RNA molecules. This improves binding efficiency. The superparamagnetic core allows quick separation using magnets. No centrifugation is needed.

These beads work for many sample types. They extract DNA/RNA from cells, tissues, blood, or plant materials. The process is simple. Mix samples with the beads. Add binding buffer. Nucleic acids attach to the silica surface. Use a magnet to pull beads to the tube wall. Discard the liquid. Wash away impurities. Elute pure DNA/RNA in water or low-salt buffer.

The amino groups (-NH2) help bind smaller RNA fragments. This is useful for miRNA or siRNA isolation. Traditional methods might lose these molecules. The magnetic properties save time. Manual handling is reduced. Risk of contamination drops.

These beads suit automated systems. Labs use them with robotic platforms. They handle high-throughput workflows. Small labs process a few samples. Large facilities run hundreds daily. Consistency matters. Production batches are quality-controlled. Performance stays stable.

Results are reliable. Purity meets PCR, sequencing, or cloning requirements. Proteins or inhibitors are removed. Yields are high. This matters for sensitive applications. Clinical diagnostics need accuracy. Research demands reproducibility.

The 5ml size is for small-scale use. The 50ml option fits larger needs. Storage is easy. Room temperature works short-term. Long-term storage uses 4°C. The beads stay stable for years. No special handling is needed.

Cost-effectiveness matters. Reusable magnets cut equipment costs. Fewer chemical reagents are used. Processing time shrinks. Labs save resources.

Safety is prioritized. The silica coating minimizes toxicity. Waste disposal is simpler. Environmental impact is lower. User exposure risks drop.

Compatibility covers many kits. Third-party buffers or protocols work. Customization is possible. Specific binding or elution conditions adapt to user needs.

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).

Payment Methods

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

Shipment Methods

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

5 FAQs of 2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2)

These magnetic nanoparticles help extract DNA and RNA from samples. The silica surface binds nucleic acids when buffers are present. The amino groups improve binding efficiency. The particles work with many sample types like blood, tissues, or cells. They suit research labs and diagnostic setups.

The beads respond to magnetic fields without retaining magnetism. This stops clumping. Mix the beads with lysed samples. Nucleic acids stick to the silica. Use a magnet to pull beads down. Wash away unwanted stuff. Change the buffer to release pure DNA or RNA.

Traditional methods need centrifugation or toxic chemicals. These beads skip those steps. Processing takes under an hour. Handling many samples is easier. Results stay reliable across runs. Cross-contamination risks drop.

The 5ml size fits small experiments. The 50ml option handles large batches. Both give the same purity and yield. Pick based on lab needs.

Store bottles sealed at room temperature for daily use. Keep long-term stocks at 4°C. Avoid freezing. Moisture ruins performance. Use dry tools when handling. Check expiry dates.

(2018 5ml/50ml Superparamagnetic Mino Silica Coated Megnetic Nano Particles/Beads for DNA/RNA Extration(-NH2))