2-Cyclohexylaminoethanesulfonic Acid Ches

Lingxian Chemical

Specifications

HS Code	999613
Name	2-Cyclohexylaminoethanesulfonic Acid (CHES)
Chemical Formula	C8H17NO3S
Molar Mass	207.29 g/mol
Appearance	White crystalline powder
Pka Value	9.3 (at 25 °C)
Solubility In Water	Soluble
Ph Buffering Range	8.6 - 10.0
Density	1.24 g/cm³
Melting Point	284 - 288 °C
Cas Number	103-47-9

Packing & Storage

Packing	100g of 2 - Cyclohexylaminoethanesulfonic Acid (CHES) in sealed, labeled packets.
Storage	2 - Cyclohexylaminoethanesulfonic Acid (CHES) should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption, as it can affect its chemical properties. Store separately from incompatible substances, like strong oxidizing agents, to avoid potential chemical reactions.
Shipping	2 - Cyclohexylaminoethanesulfonic Acid (CHES) is shipped in sealed, corrosion - resistant containers. Packaging ensures protection from moisture and contamination during transit to maintain its chemical integrity.

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2-Cyclohexylaminoethanesulfonic Acid Ches

General Information

Historical Development

2-Cyclohexylaminoethanesulfonic acid (Ches) has gradually emerged in the field of chemistry. At the beginning, chemical scholars explored various reagents and achieved exquisite products.
At that time, everyone thought hard and studied the properties of various compounds. After years of experiments, Ches began to appear in the world. Its unique performance is suitable for many chemical experiments and industrial processes.
Since its inception, Ches has been widely used. In biochemical analysis, it can stabilize the pH and help the experiment to be accurate; in drug development, it is a key auxiliary material to ensure the quality of drugs.
Over the years, the research on Ches has become more and more in-depth, its preparation process has also been improved, and the output has gradually increased, which has contributed to the development of the chemical industry and become an indispensable product.

Product Overview

2-Cyclohexyl aminoethanesulfonic acid (CHES). There is now a product called 2-cyclohexyl aminoethanesulfonic acid, simply referred to as CHES. It is made by fine chemicals and has a wide range of uses in biochemical research.
Looking at its properties, it is often a white crystalline powder with a pure texture. It has good buffering properties. In the biochemical experimental system, it can stabilize and control the pH environment and maintain the balance of the system.
On its preparation, it has been carefully synthesized by chemical synthesis. Cyclohexylamine and 2-chloroethanesulfonic acid are used as materials, and the pure product is obtained by ingenious reaction and fine purification.
In the application field, it is an indispensable buffer in biochemical experiments such as protein electrophoresis and enzyme activity research. With its precise buffering ability, it ensures that the experimental conditions are stable and the results are accurate and reliable.
Although CHES is a chemical synthesis, it is on the road of biochemical exploration, just like the help of a boat, it helps scientific research and contributes to revealing the mystery of life.

Physical & Chemical Properties

2-Cyclohexylaminoethanesulfonic acid (Ches) has its chemical properties and chemical properties. Its shape or powder, white in color, pure and stable in nature.
In terms of its physical properties, it has good water solubility, can form a uniform liquid in water, and the melting point has a specific value, which is related to the interaction between molecules. From a chemical perspective, it has the characteristics of acid and can react with bases to form corresponding salts. The nature of the groups in its structure makes it useful as a buffer in biochemical experiments. Due to its ability to stabilize the pH of the system, it maintains the balance of the environment within a specific pH range and helps various reactions proceed in sequence, without being disrupted by sudden changes in pH.

Technical Specifications & Labeling

2-Cyclohexylaminoethanesulfonic acid (Ches) is an important chemical substance. Its technical specifications and labels (product parameters) are related to many things. Looking at its quality, the color is pure and the state is stable. Its content must be accurate and suitable for use. On the logo, the name, sex, danger, etc. should be clear. In the specification, the amount of impurities must be strictly controlled to avoid disturbing its properties. In this way, Ches can be used in various industries without fear, and it can contribute to the progress of the chemical industry and the development of scientific research. It will live up to expectations, so as to achieve a state of perfection, be valued by the industry, and become a model of quality.

Preparation Method

To make 2-cyclohexylaminoethanesulfonic acid (Ches), the raw materials and production process, reaction steps and catalytic mechanism are the key.
First take an appropriate amount of cyclohexylamine, based on it, and meet 2-chloroethanesulfonic acid in a specific reactor. Control the temperature at an appropriate value, or between 60 and 80 degrees Celsius, adjust the pH to a neutral slightly alkaline, and use carbonates as buffers to make the two work together.
During the reaction, it is necessary to continuously stir to promote the mixing, increase the rate of molecular collision, and quickly react. After a few hours, observe the process by thin-layer chromatography until the reaction is almost complete. After separation, the product is separated by ion exchange resin to remove heterogeneity and keep purity. After recrystallization, the crystal of high-purity Ches is obtained. The catalytic mechanism, or due to the acid-base microenvironment of the reaction system, activates its molecular activity, reduces the energy barrier of the reaction, and causes the reaction to go forward. This is a good product.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, it is related to the change of substances, reaction and modification, which is the most important thing. In this sentence, the chemical reaction of 2-Cyclohexylaminoethanesulfonic Acid (Ches) is worth studying.
The preparation of Ches, or the method of organic synthesis involved in various reactions, needs to be precisely controlled. The proportion of reactants and the conditions of the reaction all affect its yield and purity. If the temperature is slightly different, or the reaction is biased, the product may be heterogeneous or pure, and the difference is very small.
And the way of modification is related to the change of characteristics. Either to enhance stability, or to adjust the response of pH. Modification method, or by chemical modification, adding the group to its structure, so that it has different properties. This is the focus of chemical researchers, with the aim of improving its performance, widening its use, and developing its growth in various fields, for the benefit of the world.

Synonyms & Product Names

2-Cyclohexylaminoethanesulfonic acid (Ches) is a very important chemical reagent. Its aliases are also popular, such as cyclohexylaminoethanesulfonic acid. This reagent is widely used in the field of biochemical research and is often used as a buffer. Its properties are stable, and it can effectively maintain a suitable pH environment in a specific chemical reaction system, helping the smooth development of experiments. With its unique chemical structure and properties, Ches plays an indispensable role in many biochemical experiments and related research, just like a boat in a river, helping researchers navigate the path of scientific exploration to achieve accurate research results.

Safety & Operational Standards

2-Cyclohexyl aminoethanesulfonic acid (Ches) Product Safety and Operation Specifications
Fu 2-cyclohexyl aminoethanesulfonic acid (Ches), in chemical substances, has unique characteristics and wide application. However, if you want to use it correctly and ensure safety, there must be its safety and operation specifications.
#1. Storage Regulations
Ches should be stored in a dry, cool and well ventilated place. Do not be near fire or heat sources to prevent accidents. The container must be well sealed to avoid excessive contact with air and cause qualitative change. If it is stored in a wet place, it is prone to moisture dissolution and damage its quality; near heat or chemical change, losing its original effect.
#2. How to use
When using Ches, clean your hands and sanitary ware. Measure with clean utensils, according to the required amount, and do it accurately. Take it gently, do not let the powder fly in the air. If there is flying, it will not only pollute the environment, but also hinder people's breathing. After measuring, quickly seal the container and put it in its original place.
#3. The operation is necessary.
In the operation room, it is necessary to have a ventilation device to keep the air fresh. Operators should wear a mask and protect their mouth and nose in front of suitable protective clothing, such as protective clothing and gloves. If powder is involved, they should also wear a mask to protect their mouth and nose. The operating table must be clean, and there should be no debris or dirt. If Ches accidentally touches the body during operation, rinse it with a large amount of water quickly; if it enters the eye, it is especially necessary to rush and seek medical attention quickly.
#4. The reason for discarding
Discarded Ches and related packaging should not be discarded at will. According to the regulations of chemical waste treatment, collect them separately and hand them over to professional waste disposal. In this way, the environment is free of pollution and ecological damage.
If you follow this safety and operation specification and use 2-cyclohexylaminoethanesulfonic acid (Ches), you can avoid disasters and perform its functions, which is beneficial to scientific research.

Application Area

2-Cyclohexylaminoethanesulfonic acid (Ches) is widely used in the field of biochemistry. It is often used as a buffer in biochemical experiments. Due to its suitable pH buffer range, it can ensure the stability of the acid and base of the reaction system, so that many biochemical reactions can be carried out smoothly in a suitable environment.
In the field of medical testing, its presence is also common. Helps maintain the stability of the detection environment and improve the accuracy of test results. When cells are cultured, Ches can create stable acid-base conditions, which are conducive to cell growth and proliferation.
In the field of protein research, it can stabilize the environment of proteins, prevent proteins from being denatured due to acid-base changes, and greatly help to explore the structure and function of proteins. It can be seen that 2-cyclohexylaminoethanesulfonic acid (Ches) is of great value in biochemical, medical and other application fields.

Research & Development

The rise of modern chemistry, in the study of all kinds of substances into the micro. In today's talk, 2 - Cyclohexylaminoethanesulfonic Acid (Ches), its research use is becoming more and more widespread.
At the beginning, many scholars explored its properties, analyzed its structure, and wanted to understand its effect in the reaction. After years of study, we know that it is unique in the buffer system, can stabilize the acid and base of the solution, so that the reaction is smooth and orderly.
After that, workers thought about expanding its use, developed a method, and sought high quality and quantity. Improve the process, improve the process, and adapt to various fields. In biochemical experiments, help enzyme catalysis; in industrial production, ensure the stability of the process.
From this perspective, the research of Ches is self-evident to wide use, and it is advanced step by step to develop its infinite prospects. In the future, it will be more brilliant in scientific research and industry.

Toxicity Research

A scholar who has heard of the ancient times must study the nature of things in detail. In this sentence 2 - Cyclohexylaminoethanesulfonic Acid Ches, the study of its toxicity is related to people's livelihood and theory.
Examine this agent in detail, if you want to understand its poison, you should consider it in experiments. Observe its response to life and spirits, and observe the change of its entry into the body. Or in the genus of rats and rabbits, apply it quantitatively, and observe the differences in its behavior, diet, and physiology. If you see restlessness, anorexia, and dysfunction of the body, the toxicity will be obvious.
It is also tested in the shadow of the environment, released in water and soil, and observed the state of grass, trees, insects, and fish. If the grass and trees wither and the insects and fish lose their place, it will also prove the harm of its poison.
However, the study of toxicity is not achieved overnight, and it must be tested repeatedly, recorded in detail, and comprehensively broken before it can obtain its true appearance to avoid its harm and be beneficial to use.

Future Prospects

Today there is a product called 2 - Cyclohexylaminoethanesulfonic Acid Ches. This product has emerged in the field of chemical industry, and the future development is quite promising.
The researchers of Guanfu Chemistry have deeply explored the properties and functions of Ches. It is available in biochemical experiments and pharmaceutical research and development. With its stable quality, it can be regulated in the reaction environment to ensure the stability of the system.
Looking forward to the future, science and technology will be new, and Ches will be used more widely. In the creation of new drugs, it may be a key agent; in the synthesis of fine chemicals, it may become an important material. Although there may be thorns in the road ahead, the researcher is determined and will be able to open up its new territory, make it shine in the future, and add bricks and mortar to various fields, becoming a new career.

Frequently Asked Questions

What are the main uses of 2-cyclohexylaminoethanesulfonic acid (CHES)?

For 2-hexyl sulfamic acid (CHES), its use is important, and its use is generally limited.
First, in biochemical research, CHES is often used as a catalyst. In the context of biochemistry, it is necessary to control the acidity in order to ensure the activity of biomolecules and the benefit of reverse engineering. CHES can effectively maintain the pH value of the solution due to its specific characteristics. For example, in some enzymatic reactions, the activity of the enzyme is sensitive to the pH of the environment. The determination of CHES can make the enzyme fully measure its catalytic efficiency at the lowest pH, helping researchers clarify the mechanism and process of enzymatic reactions.
Second, in the field of protein research, CHES also has its place. The development of proteins, the determination of isoforms, and the multi-step process all require a specific environment. CHES can provide a certain survival environment for proteins, prevent proteins from being degraded due to acidity, and maintain the integrity of protein functions, so that researchers can deeply explore the characteristics and functions of proteins.
Third, CHES can also be used in cell culture. Physiological activities such as cell generation and replacement require harsh environmental conditions, and acidity is one of the factors. CHES can be used in the preparation of the cell culture solution, and the pH value of the cell culture solution can be determined to ensure the normal generation and proliferation of cells, and provide a fixed cell culture tool for the research of cell biology.
, 2-hexyl aminosulfonic acid (CHES) is used in many important fields such as biochemical research, protein research and cell culture. The characteristics of its operation play an indispensable role in helping many scientific research and exploration to develop.

What are the optimal storage conditions for 2-cyclohexylaminoethanesulfonic acid (CHES)?

2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 (CHES) is a commonly used buffer in biochemical research. In order to protect this agent, it must be known that its optimal storage conditions.
This agent likes to be in a low temperature and dry environment. If the cover temperature is high, the molecular movement will be dramatic, and its chemical properties will be easily changed; if the humidity is too large, water vapor will invade it, or it will cause deliquescence, hydrolysis and other changes. Therefore, it should be stored in a freezer at 2 to 8 degrees. This temperature can inhibit its molecular activity without freezing and condensation and damage its structure.
and must be placed in a sealed container. If exposed to air, it will come into contact with carbon dioxide, oxygen and other gases, or react chemically, reducing its buffering effect. A sealed device can prevent external interference and keep it pure.
In addition, it is also necessary to avoid strong light. Light contains energy, or stimulates CHES molecules, which leads to photochemical reactions and causes the components to deteriorate. Therefore, hide it in a dark cabinet or use a light-shielding container to prevent light damage.
In summary, 2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 the best way to store it is at two to eight degrees, dry, sealed and protected from light, so that it can be preserved for a long time, and it is safe for experimental use.

How is the stability of 2-cyclohexylaminoethanesulfonic acid (CHES) at different pH values?

2-Hexylaminoethanesulfonic acid (CHES) is a commonly used biochemical acid, and its characterization is crucial at different pH values.
The pH value of CHES is around the pKa of CHES, which is pH 9.3. This CHES shows good performance and its molecules are well-defined. At this pH level, CHES can effectively maintain the acidity of the solution, resisting the addition of a small amount of acid or a large pH reduction caused by the addition of a small amount of acid.
If the pH value is lower than its pKa value, the H level in the solution increases, and the amino group of CHES is prone to ionization. This ionization may cause changes in the CHES molecule, which will affect its characterization. However, if the acidity is not high, CHES can still maintain a certain degree of stability by virtue of its chemical properties.
On the contrary, if the pH value is higher than its pKa value, the OH degree in the solution increases, and the sulfonic acid group of CHES may also affect the molecular image and characterization of CHES. However, the sulfonic acid group of CHES has a certain acidic characterization, and it can still be determined by the phase-holding.
Therefore, CHES has good characterization at a pH close to its pKa value, which can effectively perform its function. However, in the case of low pKa value of acid or low pKa value, its qualitative performance is affected, but because of its inherent quality, it can still maintain a certain degree of stability, but the degree of acidity can be studied or changed, which affects its qualitative performance.

How is 2-cyclohexylaminoethanesulfonic acid (CHES) compatible with other chemicals?

2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 (CHES) is an important chemical substance. Its compatibility with other chemical substances is related to the application in many fields and cannot be underestimated.
CHES has good buffering properties and is widely used in biochemical research and other fields. In terms of its compatibility with common chemical substances, in neutral to weakly alkaline environments, it can coexist peacefully with many salts, such as sodium chloride, potassium chloride, etc., without chemical reaction. This characteristic makes CHES in buffer configuration can be matched with such salts to adjust the ionic strength and maintain the stability of the system.
However, when CHES encounters strong oxidants, extra care is required. The strong oxidizing property of strong oxidants may cause the structure of CHES to be damaged, resulting in the loss of its buffering performance. In case of strong oxidants such as potassium permanganate, the two may cause redox reactions, resulting in changes in the molecular structure of CHES.
In terms of organic reagents, CHES has certain compatibility with most polar organic solvents, such as ethanol and acetone. Adding an appropriate amount of such organic solvents to systems containing CHES usually does not affect the buffering performance of CHES, which is very critical in some biochemical reaction systems that require organic reagents to assist in solubility. However, the compatibility with non-polar organic solvents, such as n-hexane, is poor, because of its large polar difference, it is easy to cause solution stratification and adverse reactions to proceed.
In addition, metal ions also affect CHES. Some metal ions, such as copper ions, iron ions, etc., may react with CHES to change their chemical properties and buffering properties. Therefore, when using CHES, the concentration of metal ions in the system needs to be strictly controlled.
In summary, 2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 (CHES) has different compatibility with different chemical substances. When using, it is necessary to know the characteristics of the chemical substances in contact with it, and operate carefully to ensure the stability of the system and achieve the expected experimental or application effect.

Potential Adverse Effects of 2-Cyclohexylaminoethanesulfonic Acid (CHES) on Biological Systems

2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 (CHES) is a chemical compound that is injected in the biochemical domain. Its effects on biological systems are investigated by researchers.
In terms of its effects on biological systems, many studies have revealed that CHES is very important in controlling the enzyme activity of biological systems under specific conditions. For example, in some enzymatic reactions, CHES can be used to improve the acidity of the environment, so as to maintain the enzyme activity. This effect is significant in many physiological processes such as cellular new generation, chemical synthesis and decomposition.
However, studies have also shown that if the content or degree of CHES is lost, it may also lead to adverse effects. In the process of cellular communication, the amount of CHES or the function of molecules can be improved, which can break the normal function of the cellular system.
Therefore, 2-%E7%8E%AF%E5%B7%B1%E5%9F%BA%E6%B0%A8%E5%9F%BA%E4%B9%99%E7%A3%BA%E9%85%B8 (CHES) is not the same as the biological system. It not only has a beneficial side, but also can support the determination of the reverse of biochemistry; it may also be lost due to factors such as efficiency, resulting in poor biological behavior. In order to deeply understand its function, more in-depth and systematic research is needed to clarify its effectiveness under different biological systems and physiology, and to provide more reliable rationale for the application of biological systems and bioengineering.