Overview of Nonionic Surfactant

Nonionic surfactants are surface-active agents that do not ionize in aqueous solutions. They are widely used in various industries, including detergents, cosmetics, and pharmaceuticals, due to their excellent solubilizing, emulsifying, and wetting properties. These surfactants are derived from alcohols, acids, or amines and are known for their versatility and compatibility with other surfactants.

Features of Nonionic Surfactant

Non-Ionic Nature: Do not form ions in water, making them less sensitive to hard water and electrolytes.

Versatility: Compatible with both anionic and cationic surfactants, allowing for broad formulation flexibility.

Solubilization: Excellent at solubilizing oils and other hydrophobic substances.

Emulsification: Effective in creating stable emulsions, which is crucial for many cosmetic and pharmaceutical formulations.

Wetting Ability: Enhances the wetting of surfaces, improving cleaning efficiency.

Low Foaming: Generally produce less foam compared to other types of surfactants, which can be advantageous in certain applications like industrial cleaning.

Temperature Stability: Maintain effectiveness over a wide range of temperatures, making them suitable for high-temperature processes.

Environmental Friendliness: Some nonionic surfactants are biodegradable, contributing to more environmentally friendly products.

(Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry))

Specifications of Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry)

Polyoxyethylene Lauryl Ether (CAS No. 9002-92-0) is a nonionic surfactant commonly used in biochemistry and biology. It acts as a cleaning agent or emulsifier. The substance has a hydrophilic polyethylene oxide chain and a hydrophobic lauryl group. This balance allows it to liquify in water and natural solvents. The item appears as a clear to pale-yellow liquid or soft solid. Its molecular weight differs based upon ethylene oxide devices. Common formulations have 9-23 ethylene oxide teams.

The surfactant operate in mild problems. It maintains activity throughout a broad pH array (5.5-7.5). Its cloud factor is about 70-80 ° C. This depends upon concentration and option composition. The hydrophilic-lipophilic balance (HLB) is around 16.3. This makes it appropriate for solubilizing membranes and healthy proteins. It disrupts lipid-protein interactions without denaturing most enzymes.

Pureness degrees exceed 99% for biochemistry applications. Residual solvents like ethylene oxide are regulated listed below 0.1%. The item has low poisoning in basic laboratory usage. It is naturally degradable under cardio problems. Viscosity varieties from 100-300 mPa · s at 25 ° C. Surface tension reduction starts at focus over 0.01%.

Applications consist of healthy protein filtration, cell lysis, and electrophoresis. It maintains enzymes in option. The surfactant works with salts and barriers. It prevents interference with UV-Vis spectroscopy at wavelengths above 260 nm. Storage calls for an amazing, dry location listed below 30 ° C. Maintain containers snugly secured to avoid moisture absorption.

Taking care of adheres to common lab security procedures. Usage gloves and eye protection. Prevent call with solid oxidizers. Dispose of waste according to regional guidelines. Shelf life is 2 years when saved effectively. Do not freeze the item. Re-test stability if lasting storage space exceeds suggested conditions.

(Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry))

Applications of Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry)

Polyoxyethylene Lauryl Ether (CAS No. 9002-92-0) is a nonionic surfactant extensively utilized in biochemistry. It functions as a cleaning agent. It helps liquify proteins and lipids in water-based remedies. This makes it valuable for breaking down cell membrane layers during experiments. Researchers utilize it to isolate mobile elements like enzymes or DNA. The compound is gentle on proteins. It does not harm their framework. This is important for researching exactly how healthy proteins function.

The surfactant supports emulsions. It blends oil and water in lab tests. This building is key for developing consistent response settings. It makes certain regular results in biochemical assays. The chemical is additionally made use of in electrophoresis. It aids different particles based on dimension. It coats healthy proteins to provide an uniform charge. This enhances the precision of the splitting up process.

Polyoxyethylene Lauryl Ether is compatible with numerous buffers. It functions across a variety of pH degrees. This flexibility makes it suitable for varied experimental configurations. It is commonly added to lysis barriers. These buffers break open cells to launch inner materials. The surfactant’s moderate action protects the honesty of released parts.

In diagnostic kits, the compound help in sample preparation. It eliminates unwanted lipids or debris from organic examples. This improves the clearness of test outcomes. It is likewise used in medication distribution systems. It assists encapsulate hydrophobic medications. This enhances their solubility in physical fluids.

The surfactant is low-toxicity. It is secure for use in lab settings. It biodegrades more easily than ionic surfactants. This decreases environmental impact. Producers prefer it for green products.

Industrial applications include cleansing representatives. It properly eliminates oils and oils. It is contributed to cosmetics. It works as an emulsifier in lotions and creams. Its mildness makes it suitable for skin-contact items.

Polyoxyethylene Lauryl Ether is temperature-stable. It executes well in heated processes. This integrity sustains its use in automated lab systems. Its adaptability and effectiveness make it a typical device in biochemistry labs.

Company Introduction

Welcome to Robocup, a premier global supplier of high-quality surfactants. Our extensive range includes anionic, cationic, nonionic, and amphoteric surfactants, catering to industries such as personal care, textiles, cleaning, and industrial applications. With advanced manufacturing facilities and rigorous quality control, we ensure that our products meet the highest international standards. We pride ourselves on our commitment to innovation, sustainability, and customer satisfaction. Our dedicated team provides tailored solutions to meet your specific needs. Partner with us for reliable, high-performance surfactants that drive your business forward. Explore our offerings and discover the difference today.

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5 FAQs of Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry)

Polyoxyethylene Lauryl Ether (CAS 9002-92-0) is a nonionic surfactant widely used in biochemistry. Here are answers to common questions. What is Polyoxyethylene Lauryl Ether? It is a synthetic compound made by reacting lauryl alcohol with ethylene oxide. The product has a hydrophilic polyethylene glycol chain and a hydrophobic lauryl tail. This structure allows it to reduce surface tension in solutions. It works well in aqueous and nonpolar systems.

How is it applied in biochemistry? It serves as a solubilizing agent for proteins and membranes. Researchers use it to break cell membranes during lysis. It stabilizes enzymes and proteins in solution. The surfactant is also used in electrophoresis buffers. It helps maintain protein integrity during separation.

Is Polyoxyethylene Lauryl Ether safe? Handle it with standard lab precautions. Avoid skin contact and inhalation. Use gloves and goggles. It may irritate eyes or skin. Follow safety guidelines in the material’s SDS. Dispose of waste according to local regulations.

What storage conditions are required? Store the surfactant in a sealed container. Keep it at room temperature. Protect it from moisture and direct sunlight. Ensure the storage area is dry. Check for stability periodically. Discard if discoloration or particles form.

Does it interact with other chemicals? It is compatible with most nonionic surfactants. Avoid mixing with strong acids or oxidizers. Test compatibility before combining with ionic detergents. Adjust concentrations based on experimental needs. Pre-dilute solutions may improve mixing efficiency.

The surfactant’s performance depends on its ethylene oxide chain length. Select the appropriate grade for specific applications. Verify purity levels for sensitive biochemical processes. Always conduct preliminary tests for optimal results.

(Polyoxyethylene Lauryl Ether; CAS No. 9002-92-0; Nonionic Surfactants (for Biochemistry))