3-Morpholino Propane Sulfonic Acid, Sodium Salt

Lingxian Chemical

Specifications

HS Code	710289
Chemical Formula	C7H14NO4SNa
Molecular Weight	231.24
Appearance	White powder
Solubility	Soluble in water
Ph Range For Buffer	6.5 - 7.9
Pka At 25 C	7.2
Melting Point	~300 °C
Stability	Stable under normal conditions
Hygroscopicity	Hygroscopic
Application	Biological buffer in biochemical research

Packing & Storage

Packing	500g of 3 - Morpholino Propane Sulfonic Acid, Sodium Salt in sealed, chemical - resistant bag.
Storage	Store 3 - Morpholino Propane Sulfonic Acid, Sodium Salt in a cool, dry place. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air, which could potentially affect its chemical properties. Avoid storing near strong oxidizing agents or heat sources. This helps maintain its stability for reliable use in various applications.
Shipping	3 - Morpholino Propane Sulfonic Acid, Sodium Salt is shipped in containers ensuring protection from moisture and physical damage. Shipment follows strict chemical handling regulations, with shipping temperatures controlled if required.

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3-Morpholino Propane Sulfonic Acid, Sodium Salt

General Information

Historical Development

3-Morpholino Propane Sulfonic Acid, Sodium Salt (Sodium Salt of 3-Morpholinopropane Sulfonate), the development of this substance, traced back to the past, first appeared in the academic community to explore. At that time, many researchers studied various compounds and made new discoveries.
At the beginning of its birth, this salt was only a niche research object in the laboratory. However, with the passage of time, science and technology have advanced, and its unique chemical properties have gradually become known. In the field of biochemical experiments, it can stabilize the pH and has a significant effect, so it has attracted attention.
As the years pass, researchers continue to study in depth, optimize the preparation method, and improve the quality. From the beginning, it only existed in theoretical discussions, to the present, it is widely used in the fields of pharmaceutical research and development and biological experiments. Its application scope is becoming more and more extensive, just like a pearl gradually shining brightly, leaving a profound track in the development of chemical research.

Product Overview

3 - Morpholino Propane Sulfonic Acid, Sodium Salt, is a commonly used reagent in chemical research. It is stable and has a wide range of uses in biochemical experiments. This product is white crystalline and easily soluble in water to form a uniform solution.
In the field of biochemistry, it is often used as a buffer to maintain the acid-base balance of the system. Because of its suitable buffer range, it can effectively resist the interference of external acid-base changes and ensure the stability of the experimental environment.
It is indispensable in many enzymatic reactions, protein and nucleic acid research experiments. It is of great significance for researchers to explore the mysteries of life, analyze the structure and function of biological molecules, provide a stable chemical environment, and help achieve results.

Physical & Chemical Properties

3 - Morpholino Propane Sulfonic Acid, Sodium Salt is an important compound. Its physical properties are unique, its color and shape are fixed, and it often appears as a white crystalline powder, which is easy to store and use. Its solubility is good, soluble in water, and can be uniformly dispersed in solution, which is beneficial for the performance of polymorphism and reversal.
As far as chemical properties are concerned, it has a certain acid resistance, which can maintain the acidity of the solution and determine the phase. This property makes it widely used in multiple fields such as biological chemistry and chemical chemistry, which can effectively ensure the quality of the phase reversal system, ensure the performance of the phase reversal system, and improve the performance and efficiency of the material. It is important for chemical research and industrial production.

Technical Specifications & Labeling

Today there are 3 - Morpholino Propane Sulfonic Acid, Sodium Salt. This product is related to its technical specifications and identification (product parameters), which is really the key to our research. To observe its quality, you need to check its purity, and the amount of impurities must be carefully measured in order to comply with accurate regulations. Its shape, whether it is powder or granular, should be noted in detail. As for the logo, be sure to state its name, origin and batch should not be ignored, so that the traceability is orderly. In the specification, the geometry of the content must be certain, and it is related to the effectiveness of the use. In this way, it can be used in research and use, and it will be handy without mistake.

Preparation Method

There is a method for making 3 - Morpholino Propane Sulfonic Acid, Sodium Salt, which is described in detail below. Prepare raw materials, which require a certain number of things, and measure them in a certain proportion. The production process is first a reaction step, placing the raw materials in a special vessel, temperature control, pressure and other conditions, so that they can chemically react. The reaction rate and product purity need to be closely monitored. After the reaction is completed, enter the purification mechanism, and go through various separation and purification methods, such as filtration, crystallization, etc., to remove impurities and obtain a pure product. In this way, high-quality 3 - Morpholino Propane Sulfonic Acid, Sodium Salt can be prepared.

Chemical Reactions & Modifications

There is a thing today, named 3 - Morpholino Propane Sulfonic Acid, Sodium Salt. In the study of transformation, its transformation response and variability are the key.
Looking at the transformation of this substance, the conditions change, and the results are different. High temperature will cause illness, low temperature will slow, such as under Yang Yan, the material should be fast, if in the cold night, it should be sluggish. And the nature of the solvent and the presence or absence of the catalyst can affect its response.
On its variability, or due to fine-tuning of the structure, or due to external forces, induced changes. Or dissolution changes, or combines with other things to have new properties. As researchers, we should carefully observe the details of its transformation and understand the principle of its variability, so that we can control this object, use it for learning, and be driven by industry. On the way to transformation, we will explore new things step by step to understand the secrets hidden in this substance.

Synonyms & Product Names

Today there is a thing called "3 - Morpholino Propane Sulfonic Acid, Sodium Salt". This thing is quite important in the field of my chemical research.
There are also many other names, such as "[List a few common synonyms, you can make up a few that conform to the chemical naming convention]", all of which refer to this thing. The names of its trade names are also called, such as "[List a few common trade names, you can make up a few that conform to the chemical trade name convention]".
This agent plays a key role in many experiments. It can stabilize the reaction environment and assist the transformation of substances. Those of us who study chemistry often rely on our strength to explore the wonders of chemistry and study the changes of substances. Although there are many synonyms and trade names, they all refer to the same thing. In our daily research, we need to clarify its synonyms in order to use them correctly and help the road of scientific research unimpeded.

Safety & Operational Standards

3-Morpholino Propane Sulfonic Acid, Sodium Salt (Sodium Salt of 3-Morpholinopropane Sulfonic Acid), in our field of chemical research, its safety and operation standards are of paramount importance.
Although this substance is a commonly used chemical reagent, its properties should not be ignored. When storing, be sure to choose a dry, cool and well-ventilated place. Cover because it is easy to absorb moisture, if stored in a damp place, the quality may change. And it should be kept away from fire and heat sources to prevent unexpected risks.
When operating, it is necessary to abide by the procedures. Operators need to wear suitable protective equipment, such as gloves, goggles, etc., to avoid contact with skin and eyes. If you accidentally touch it, you should immediately rinse it with a lot of water and seek medical attention as appropriate.
In the use environment, ventilation is indispensable to prevent the accumulation of harmful gases. Waste after use should not be disposed of at will, and must be properly disposed of in accordance with relevant regulations to avoid polluting the environment.
These are the main principles of 3-Morpholino Propane Sulfonic Acid, Sodium Salt safety and operation norms. The way of chemistry, safety first, and management rules can ensure that everything goes smoothly and is safe.

Application Area

3 - Morpholino Propane Sulfonic Acid, Sodium Salt, is widely used in the field of biochemical experiments. It can be used in the buffer system of cell culture to maintain the acid-base balance of the culture medium, so that the cells are in a suitable growth environment. And in the protein crystallization experiment, it can adjust the ionic strength and pH value of the solution, help the protein form a regular lattice, so as to facilitate crystal growth and structure resolution. In the study of enzyme activity, it provides stable acid-base conditions for enzymatic reactions and avoids disturbance of enzyme activity due to changes in pH. This substance plays an important role in many biochemical experiments, and is an indispensable reagent for the success or failure and accuracy of experiments.

Research & Development

Today there is a thing, the name is 3 - Morpholino Propane Sulfonic Acid, Sodium Salt. I am a researcher of chemicals, and I know the importance of this thing. In the process of research, carefully observe its properties and study its rationale.
This agent is also stable and widely used. In biochemical research, it is often used as a buffer agent to ensure the stability of the system and make the reaction progress in an orderly manner. Observe its structure, analyze its energy, and hope to explore its hidden secrets.
After months of research, its characteristics are gradually understood, and new uses are also sought. With the permanence of the ancients, we will use this material to expand the boundaries of research, assist the progress of biochemistry, and promote the development of science, leaving available resources for future generations, creating beneficial achievements, and achieving the ambition of research and progress.

Toxicity Research

To taste the toxicity of something you want to know, you must study it with a strict method. Now look at 3 - Morpholino Propane Sulfonic Acid, Sodium Salt. The study of its toxicity is related to the health of people's livelihood and should not be ignored.
We should use scientific methods to observe its effects on various organisms under different environments and doses. Or apply it to insects, observe their behavior and growth changes; or use it to cells, explore their physiological functions.
Record data in detail, analyze its cause and effect, and clarify the toxicity and strength. Only in this way can we use and prevent its harm, make this thing in the world, do its best to avoid its disadvantages, keep all beings in peace, and promote the peace of all things.

Future Prospects

Today there is a thing called "3 - Morpholino Propane Sulfonic Acid, Sodium Salt". We have studied it chemically, and we hope to have extraordinary development in the future. This material property is unique, and it can be used in the field of biochemistry, which can adjust the acid and base of the solution and stabilize the reaction environment. Although the current understanding is not complete, I firmly believe that with time, we will be able to understand its subtlety and expand its use. In the future, it may help medical breakthroughs and promote drug research and development; or add wings to the chemical industry and create efficient new products. We should study it diligently, explore its endless possibilities, and develop this substance in the future. It will live up to the mission of scientific research and seek well-being for future generations.

Frequently Asked Questions

3-Morpholine propane sulfonic acid, what is the main use of sodium salts?

3-Boroglutaric anhydride is a chemical substance. From the perspective of "Tiangong Kaiwu", although this substance is not directly described in the book, its use can be considered from the concept of traditional chemical processes and material applications.
In traditional alchemy and pharmaceutical techniques, the properties and reactions of various chemical substances are deeply explored. Boroglutaric anhydride may be used as a catalyst or reaction medium in the refining of medicinal pills. Because alchemy aims to refine "longevity medicinal pills" through complex chemical reactions, it is necessary to precisely control the reaction of substances. Some special anhydrides may accelerate the specific reaction process, making the composition of medicinal pills more ideal.
In the traditional printing and dyeing industry, to obtain bright and long-lasting colors, it is necessary to use mordants to assist dyes in fixing fabrics. If boroglutaric anhydride has the characteristics of interacting with fabrics and dyes, it can be used as a mordant. After it is combined with fabric fibers, it can absorb dye molecules, improve dyeing fastness and color brightness, and ensure that the printing and dyeing effect does not fade for a long time.
In addition, in the traditional metallurgical field, special substances are often added to improve the properties of metals. If boroglutaric anhydride can undergo specific chemical reactions with metals, it may change the structure of metal structures. For example, when casting certain utensils, adding an appropriate amount of this substance may make the metal more tough and corrosion-resistant, and improve the quality and service life of the utensils.
In the traditional ceramic production process, the glaze formula is key. Boroglutaric anhydride may adjust the melting point, fluidity and chemical stability of the glaze Appropriate use can make the enamel on the ceramic surface uniform and smooth, enhance the ceramic's resistance to wear and chemical attack, and improve the quality and aesthetics of the ceramic.

3-Morpholine propane sulfonic acid, sodium salts are widely used in which industries

3-Borenediol silica, mercury is widely used in general operations. It has extraordinary properties in the fields of engineering, chemistry, and materials.

> One line, 3-borenediol silica and mercury are used in the research of rubber compounds. Because borenediol silica has specific properties, it can interact with biomolecules and help to synthesize rubber compounds with specific effects. Mercury also has a place in dental materials. In the past, it was often used as a dental repair and filling material. Due to its good plasticity and durability, it can effectively restore the shape and function of the teeth.
Chemical engineering, 3-borenediol silica is important for processing, and there are many synthetic reactions. It can be used as a catalyst or anti-medium, to promote anti-reaction, and improve the efficiency of anti-reaction. Mercury can be used in the chemical field to develop its potential, and it is used in the material, affecting the rate and direction of chemical reaction.
In terms of material science, 3-borenediol silica can be used to develop new functional materials. For example, the introduction of polymer materials can improve the special properties of materials, such as increasing the mechanical properties of materials and improving the chemical resistance of materials. Mercury can be improved to form alloys with other gold materials to improve the physical properties of gold materials, such as hardness and durability.
In addition, 3-borenediol silica can play an important role in the development of materials, chemicals, materials, etc., and promote the development of various industries.

3-Morpholine propane sulfonic acid, what are the physical and chemical properties of sodium salts?

Mercury, commonly known as mercury, is the only metal that exists in a liquid state at room temperature and pressure. Its physical and chemical properties are unique and are described as follows:
In terms of its physical properties, mercury has a silver luster, a bright appearance and a liquid flow, and a soft texture. Its density is quite high, reaching 13.59 g/cm ³, which is more than 13 times that of water, so it can sink rapidly in water. Mercury has a melting point of -38.87 ° C and a boiling point of 356.6 ° C. Such melting points keep mercury in a liquid state at room temperature. Mercury has good thermal conductivity, but its electrical conductivity is relatively weak in metals. In addition, the surface tension of mercury is extremely high, so on a flat surface, mercury droplets will shrink into a nearly perfect spherical shape.
As for chemical properties, mercury has relatively stable chemical properties and is not easy to react with oxygen at room temperature. Only when heated above 300 ° C will it slowly combine with oxygen to form mercury oxide. Mercury can form alloys with a variety of metals. This alloy is called amalgam, such as sodium amalgam, zinc amalgam, etc. Amalgam formation is often accompanied by volume changes, and some amalgams release mercury under certain conditions. Mercury can react violently with sulfur to form mercury sulfide, a property often used to treat mercury leaks to reduce the toxicity and volatility of mercury. Mercury can also react with halogens to form corresponding halogenated mercury, such as mercury chloride, which is mostly toxic. The common valence of mercury in compounds is + 1 and + 2, and there are significant differences in the properties of mercury compounds with different valence states.

3-Morpholine propane sulfonic acid, what is the preparation method of sodium salt?

To make tri-nitroglyceride, the method is as follows:
Take an appropriate amount of glycerol and place it in a clean container. Prepare concentrated nitric acid and concentrated sulfuric acid, and mix the two slowly in the appropriate proportion. This process needs to be especially careful, because it is highly corrosive and has a violent chemical reaction. After the acid is evenly mixed and cooled, under constant stirring, slowly inject the glycerin into the acid. Stirring should be continuous and uniform to allow the reaction to proceed fully. A lot of heat will be released during the reaction, so the reaction temperature needs to be properly controlled to prevent danger caused by excessive temperature.
After the reaction is completed, pour the reaction product into a container containing a large amount of water. Tri-nitroglyceride will be separated from other impurities due to its density and solubility. After that, the trinitroglycerides are carefully separated by liquid separation and other methods. The obtained trinitroglycerides need to be further purified, and residual acid and other impurities can be removed by washing with water until the product is pure.
However, it is necessary to keep in mind that trinitroglycerides are extremely sensitive and are easily exploded due to vibration, heat and other factors. During preparation and use, safety procedures must be strictly followed to ensure safety.

3-Morpholine propane sulfonic acid, what are the precautions during the use of sodium salts?

3-Borane dimethyl sulfide complex, the following things should be paid attention to during use:
First, because of its strong reducing property, it is easy to react violently in contact with water and acid substances, generating flammable and explosive hydrogen. Therefore, when storing and using, it is necessary to ensure that the environment is dry, away from water sources and acidic substances. The access operation should be completed in a dry inert gas protective atmosphere, such as a nitrogen environment, and the equipment used should also be fully dry.
Second, this substance is more sensitive to air, and it is easily oxidized when exposed to air, which affects its performance and activity. Therefore, it should be sealed and stored as soon as possible after use to avoid long-term contact with air. After opening the package, it should be used up as soon as possible. If it cannot be used up, it should be properly sealed and stored in a low temperature, dry and oxygen-free environment.
Third, the 3-borane dimethyl sulfide complex has certain toxicity and irritation, and protective measures must be taken during operation. Wear protective clothing, protective gloves, protective glasses and gas masks to prevent it from coming into contact with the skin and eyes, and avoid inhaling its volatile gases. If it comes into contact accidentally, rinse with plenty of water immediately and seek medical treatment in time.
Fourth, when using this reagent for reaction, the reaction conditions need to be strictly controlled. Due to its high activity, factors such as reaction temperature, time and proportion of reactants will have a significant impact on the reaction results. The reaction parameters should be precisely adjusted according to the specific reaction requirements, and the reaction process should be closely monitored to ensure that the reaction proceeds in the expected direction.
Fifth, in view of the active nature of the 3-borane dimethyl sulfide complex, the reaction equipment and pipes in contact with it should be selected with appropriate materials. To avoid the use of materials that are easy to react with, to prevent equipment damage or cause safety accidents. At the same time, the reaction equipment should be regularly inspected and maintained to ensure that it is well sealed and has no risk of leakage.