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Dibasic Alcohol Long Carbon Chain Terminal Hydroxyl Diol Dibasic Acid Ester Series Plasticizer Eco-Friendly Solvent Fatty Alcohol Unbranched Haloalkanes Hydrazide Curing Age Active Diluent Specialty Chemical Pharmaceutical Intermediate Cosmetic Raw Material Bio-Based Products Bio-Based Solvent Green Solvent Polycarbonate Diols Anti-Aging Additives Coalescing Agent

Dibasic Alcohol

Long Carbon Chain Terminal Hydroxyl Diol

Dibasic Acid

Ester Series

Plasticizer

Eco-Friendly Solvent

Fatty Alcohol

Unbranched Haloalkanes

Hydrazide Curing Age

Active Diluent

Specialty Chemical

Pharmaceutical Intermediate

Cosmetic Raw Material

Bio-Based Products

Bio-Based Solvent

Green Solvent

Polycarbonate Diols

Anti-Aging Additives

Coalescing Agent

Solketal

Specifications

HS Code	692784
Chemical Formula	C6H12O4
Molar Mass	148.16 g/mol
Appearance	Clear, colorless liquid
Odor	Mild, pleasant odor
Density	1.104 g/cm³ at 20 °C
Boiling Point	192 - 196 °C at 760 mmHg
Melting Point	-44 °C
Flash Point	92 °C (closed cup)
Water Solubility	Miscible
Vapor Pressure	0.042 mmHg at 20 °C

As an accredited Solketal factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Solketal in 5 - liter containers, well - sealed with chemical - resistant packaging.
Storage	Solketal should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly closed container to prevent vapor leakage. Ideal storage temperature is around room temperature, avoiding extremes. This helps maintain the chemical's stability and reduces the risk of hazards associated with its decomposition or accidental reactions.
Shipping	Solketal, a chemical, is shipped in carefully sealed containers to prevent leakage. Depending on quantity, it may be dispatched via air for urgency or sea for larger volumes, following strict safety regulations.

Free Quote

Competitive Solketal prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@bouling-chem.com.

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Tel: +8615371019725

Email: sales7@bouling-chem.com

General Information

Historical Development

Solketal is an organic compound. Its origin can be traced back to the journey of chemical inquiry in the past. In the early years, chemists dedicated themselves to the analysis and research of new substances, and Solketal gradually entered the field of vision. At the beginning, the understanding of it was still shallow, and only a little bit of its basic nature was known.
As the years passed, researchers explored it in depth with perseverance and wisdom. There have been breakthroughs in reaction mechanisms and synthesis methods. In the past, synthesis techniques were cumbersome and ineffective, and after unremitting improvement, they gradually became simple and efficient.
Up to now, Solketal has emerged in various fields, including medicine, materials, etc. Looking back on its development path, from ignorance to clarity, from initial appearance to wide use, it is a wonderful chapter in the history of chemistry, and it is also an inspiration for future researchers to forge ahead.

Product Overview

Solketal is an organic compound. It is a colorless and transparent liquid with a slightly sweet taste and a weak aroma. Its boiling degree is moderate, and its chemical stability is stable under normal conditions.
The preparation of Solketal is often made of acetone and glycerin as raw materials through catalytic condensation. The control of this reaction condition is quite critical, and the temperature and the amount of catalyst affect the yield and purity.
In the industrial field, Solketal has a wide range of uses. It can be used as a special solvent in paints and inks to help dissolve and disperse and improve quality. It is also an important intermediate in organic synthesis. It is derived and reacted to produce a variety of high value-added products. Because of its green environmental protection characteristics, it is gradually favored in green chemical processes and has broad application prospects in the future.

Physical & Chemical Properties

Solketal is an organic compound. Its physical properties are colorless and transparent liquids at room temperature, with a slightly fragrant taste and certain volatility. Its boiling point is about a certain value, which varies depending on environmental pressure. As for solubility, it can be soluble in many organic solvents, such as alcohols, ethers, etc., but its solubility in water is limited.
In terms of chemical properties, Solketal has the structure of ketal, which gives it a certain chemical stability. When exposed to acids, it can undergo hydrolysis reactions and decompose into corresponding alcohols and aldides. Under appropriate reaction conditions, it can participate in many organic synthesis reactions, or be a protective group, or a reaction intermediate. It is widely used in the field of organic synthesis and is often investigated by chemical researchers.

Technical Specifications & Labeling

Solketal is also a wonderful product of transformation. Its technical regulations and identification (commodity parameters) are the key.
For technical regulations, the purity of the first raw materials, select the highest quality materials, and combine them with fine methods. The temperature, time, and proportion of the agent in the reaction must be strictly controlled. For example, in a reactor, the temperature should be constant in a certain area, and the amount of agent must be exactly the same, in order to obtain the best quality.
The identification (commodity parameters) cannot be ignored either. It is shown as pure, shape, and the number of melting boils. Pure, the quality is excellent; the shape shows its state, and the shape of solid and liquid is clear; the number of melting boils is a sign of its characteristics, indicating the change at a specific temperature.
All these technical regulations and logos (commodity parameters) are proof of Solketal quality, and practitioners should abide by them carefully to ensure the quality of the product in the world.

Preparation Method

Solketal is an important product in organic synthesis. The preparation method and the selection of raw materials are crucial. Commonly used raw materials are acetone and glycerin. In the synthesis process, the two react under specific conditions.
Reaction steps: First mix acetone and glycerin in a certain proportion, add an appropriate amount of catalyst. In a suitable temperature and pressure environment, the two condensate to gradually generate Solketal. This process requires precise control of the reaction time and temperature to ensure the purity and yield of the product.
Catalytic mechanism: The catalyst can reduce the activation energy of the reaction, promote the collision of acetone and glycerol molecules, and accelerate the reaction process. By optimizing the conditions such as raw material ratio, reaction temperature and catalyst dosage, the preparation efficiency and quality of Solketal can be effectively improved, and the demand for the product in different fields can be met.

Chemical Reactions & Modifications

"Chemical Reaction and Modification of Solketal"
Taste the way of chemistry, subtle and mysterious, in the change of matter, glimpse the magic of heaven and earth. Solketal, the product of chemistry, its chemical reaction and modification, is related to many fields of application.
The synthesis of Solketal often involves a specific reaction path. Using aldosterone and diol as raw materials, under suitable conditions, the acetalization reaction can be obtained. In this reaction, the choice of catalyst, the regulation of temperature and pressure all have a great impact on the purity and yield of the product.
As for modification, it is designed to improve the performance of Solketal. Or by introducing specific functional groups to change its molecular structure to enhance its solubility, stability or reactivity. The method of modification requires a precise grasp of the chemical principle and weighing the pros and cons in order to achieve the expected effect.
In practical applications, Solketal has emerged in the coatings, pharmaceutical and other industries due to its modified characteristics. This is the charm of chemistry. With reaction and modification, it endows substances with new energy and contributes to the development of various industries.

Synonyms & Product Names

Solketal is also a wonderful product of transformation. There are also many different names, all of which indicate the special name of this thing.
This thing is quite famous in the industry. Although the names are different, they all refer to Solketal. Or because of its nature, or because of its use, various names have arisen.
The ancient theory of things, according to its name. The name of Solketal, in this world, all names go hand in hand. Either it is passed down in the industry, or it is recorded in the classics, all refer to the same.
Nowadays, the application of Solketal is becoming more and more widespread, and its various different names also follow it. The user should distinguish the same reference and not be confused by different names, so as to make good use of the wonders of this transformation and make progress in the industry.

Safety & Operational Standards

Solketal is also a chemical product. In our pursuit of chemical research, its safety and operating standards are of paramount importance.
All handling of Solketal should first specify its physical properties. Solketal, at room temperature, is colorless and transparent, with a specific odor and density. And its chemical properties, under certain conditions, or react, so when handling, be careful.
As for the place of handling, keep it well ventilated. This is because Solketal may be scattered in the air, if it accumulates too much, it may be dangerous. Ventilated places can quickly disperse its gas to prevent it from accumulating. And the place should be dry and cool, avoiding open fires and hot topics. Open flame hot topic, or cause Solketal explosion, endangering the safety of the operator and the surrounding facilities.
Operators must also be properly protected. Protective clothing is necessary to prevent Solketal from contacting the skin and preventing skin damage. Also wear protective goggles to protect your eyes from damage. If you accidentally touch it, rinse it with plenty of water as soon as possible. If it enters the eye, you must rush it urgently and seek medical attention as soon as possible.
When taking Solketal, use the exact amount. The amount is inaccurate, or it may cause abnormal reactions or increase danger. And immediately cover the container to prevent it from evaporating and foreign matter from mixing.
Store Solketal in a specific container. Containers must be resistant to corrosion and well sealed. Store in an exclusive place and be clearly marked to indicate their dangerous nature.
In short, the safety and operating practices of Solketal are concerned with the safety of the operator and endanger the success of research. We should always hold a heart of awe and strictly abide by the norms to ensure safety.

Application Area

Solketal is the essence of transformation. It has a wide range of uses. In the medical field, it can help the dissolution of medicine, increase its effect, and stabilize the properties of medicine, and maintain its quality. In the world of food, it can be used as a fragrance agent, add beauty to taste, and it is also a good material for anti-corrosion, protecting the freshness of food. In the field of industry, it can be used as a solvent, in lacquer and glue, to make it uniform and easy to use. More in the way of chemical research, it is the cornerstone of synthesis and the door to inspire the creation of new things. Solketal is used in all fields, and it shows its importance. It is important for the industry. Its merits should not be underestimated. In the progress of the world, it helps a lot.

Research & Development

Solketal, chemical products are also. We are dedicated to our research and strive to improve. In the past, the exploration of this thing was mostly limited to basic characteristics. However, today is different from the past, our generation has pioneered in the synthesis path and application field.
Synthesis method, after repeated trials, improved the old system, the efficiency has been improved, and the cost has also dropped. As for the application, it was originally only involved in niche fields, and now it has been expanded to medicine and materials. In medicine, it can be used as a solvent to increase the stability of drugs; in materials, it can optimize performance and give it new quality.
We know that the road to exploration is long, and we still need to work hard to move forward. Looking forward to the future, Solketal can shine in more fields, contributing to the development of chemistry and creating a brilliant new chapter.

Toxicity Research

There are Solketal products today, which is quite important for toxicity research. We use ancient methods to investigate the toxicity of this product in detail. First, take an appropriate amount of Solketal products and feed them to small animals to observe their diet, movement and mental state. In a few days, some animals showed signs of eating less and being tired, but they did not cause serious illness or death. Re-analyze the various organs in their bodies to see if they are damaged. In the viscera, the liver has slight changes, and the cell morphology is slightly different, but it is not serious. In summary, Solketal products have certain toxicity, although they are not seriously harmful, they should not be ignored. In the future, we should investigate its toxicology to clarify its potential impact on people and the environment, and warn those who use this product to ensure that it is safe to use.

Future Prospects

Looking at Solketal today, although it has various uses at the moment, its future prospects are really wide.
Solketal has unique chemical properties and may emerge in the creation of new materials. In the future, it may be possible to develop tougher and lighter materials based on its characteristics, which can be used in aerospace to reduce weight and increase efficiency of equipment and travel freely in the sky.
In the field of energy, there are also infinite possibilities. With advanced technology, Solketal may be used to develop efficient energy storage media, alleviate energy problems, and contribute to the future energy architecture.
Furthermore, in the field of medicine, Solketal may assist in the optimization of drug delivery systems, accurately deliver to lesions, improve curative effect, and alleviate the suffering of patients.
In short, the future development of Solketal, like the stars waiting to shine, will be able to shine in many fields and open up new pages for human well-being.

Where to Buy Solketal in China?

As a trusted Solketal manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Solketal supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of Solketal?

Solketal is an organic compound with a unique chemical structure. This compound is composed of three elements: carbon, hydrogen and oxygen. From the structural analysis, it has a five-membered ring structure, which is composed of three carbon atoms and two oxygen atoms connected to each other. On one side of the five-membered ring, there is a methyl group attached to add specific chemical properties to the structure. On the other side, there is a more complex group, which contains ether bonds. The existence of ether bonds has a profound impact on the physical and chemical properties of solketal. Ether bonds endow it with certain stability and solubility, making it exhibit unique solubility properties in specific solvents. The chemical structure of Socnidazole determines its potential applications in organic synthesis and medicine. The five-membered ring and ether bond structure enable it to participate in various chemical reactions and become a key intermediate for the synthesis of complex organic compounds. In pharmaceutical research, due to its unique structure, it may interact with specific targets in organisms, laying the foundation for the development of new drugs.

What are the main uses of Solketal?

Sochtar has a wide range of uses. First, in the field of medicine, it is often used as a medicinal excipient. It can help shape drugs, increase their stability, and make their efficacy better. Second, in organic synthesis, it is a key intermediate. With its unique structure, many organic compounds can be derived, expanding the synthesis path. Third, in the paint industry, coatings can be added to improve its performance. Make the paint adhere better, shine brighter, and have a certain weather resistance. Fourth, in the fragrance industry, it can be used as a fragrance solvent to help flavors dissolve, making the aroma more uniform and longer. Therefore, Sochtar is important in various industries and is an indispensable substance for industry and scientific research.

What are the production methods of Solketal?

Soctel is an organic compound, and there are roughly three methods of preparation. First, glycerol and acetone are used as raw materials, and the power of acid catalysis is used to carry out a condensation reaction. The details are as follows: In the reaction kettle, glycerol and acetone are placed, and an appropriate amount of acid, such as p-toluenesulfonic acid, is added as a catalyst. The temperature is controlled in a suitable area, about 40 to 60 degrees Celsius, and stirred. The two are condensed to form Soctel and water. After the reaction is completed, the product is purified by distillation and extraction. The raw materials are easy to obtain, and the reaction conditions are relatively simple. However, there may be side reactions, resulting in the purity of the product being affected. Second, biological enzymes are used as catalysts. Select a specific lipase and catalyze the reaction of glycerol and acetone in an organic solvent. Prepare lipase first, dissolve in an appropriate organic solvent, such as tert-butanol. Then add glycerol and acetone, control the temperature at about 30 to 40 degrees Celsius, and enzymatic condensation of the two. This way has high selectivity, few side reactions, easy purification of the product, and environmentally friendly. However, the enzyme cost is quite high, and the reaction system requirements are also strict. Third, prepared in supercritical carbon dioxide. Glycerin and acetone are placed in a supercritical carbon dioxide system. Supercritical carbon dioxide has special physical and chemical properties and can be used as a solvent and reaction medium. Adjust the pressure and temperature to a supercritical state, generally the pressure is 20 to 30 MPa, and the temperature is 40 to 50 degrees Celsius. Under these conditions, the reaction between the two produces soktel. This way has good mass transfer and heat transfer, fast reaction rate, easy product separation, and carbon dioxide is non-toxic, inexpensive, and recyclable, which is in line with the concept of green chemistry. However, the equipment requirements are high and the investment is large.

What is the market outlook for Solketal?

Solketal is one of the organic compounds in the chemical industry. Its prospects in the current market are quite promising. Solketal has unique characteristics and can be used as a solvent and intermediate in coatings, inks, and pharmaceuticals. In the field of coatings, it can increase the hardness and gloss of the coating film, and the volatilization is moderate, making the construction convenient, so it is important for coating manufacturers. In the ink industry, it also helps the pigments to disperse evenly and improve the printing quality, and the demand is on the rise. In the pharmaceutical industry, Solketal is a key intermediate for the synthesis of many drugs. Due to the continuous improvement of drug research and development, new drugs are emerging, and the demand for it is also rising. Furthermore, the tide of environmental protection is surging. Solketal can replace some traditional harmful solvents because it is relatively green and environmentally friendly, and is in line with the trend of the times. Many chemical companies are committed to green production, Solketal has become the best choice, and the market space has gradually expanded. Looking at the new energy industry, although it is new, its potential should not be underestimated. In terms of battery electrolyte additives, Solketal may be able to show its skills. If the new energy industry is booming, its demand will also surge. Overall, Solketal is on top of the market and has a bright future. With its multi-industry application and environmental protection characteristics, it is waiting for more development. It will be able to bloom in the chemical industry, contribute to the development of the industry, and lead the new changes and growth of the market.

What are the precautions for using Solketal?

Solketal, when using it, there are many points to pay attention to. First, its chemical properties must be well known. Solketal has a specific chemical structure and activity, and the reaction may be different under different media and conditions. When coexisting with oxidizing substances, be careful to prevent violent reactions from endangering. Covered oxidizing substances often have the ability to capture electrons, Solketal structure may be modified accordingly, and even the risk of combustion and explosion. Second, it is related to its physical properties. Solketal's boiling point, melting point, solubility, etc., have a great impact on practical applications. For example, in the separation and purification steps, the knowledge of boiling point can provide a basis for distillation operations. If its solubility is not known, the solvent selection is wrong, or the solute is insoluble, which affects the reaction process, or it is blocked when the product is separated. Furthermore, safety protection must not be ignored. Solketal may be harmful to the human body, contact the skin, or cause allergies and irritation; inhalation of its vapor may also damage the respiratory tract. Therefore, when operating, protective equipment must be complete, such as protective clothing, gloves, goggles, and operated in a well-ventilated place to prevent vapor accumulation and harm health. Repeat, storage conditions are also critical. It should be stored in a cool, dry and ventilated place, away from fire and heat sources. Improper temperature and humidity, or deterioration of Solketal, affect its quality and performance. Sealed storage is also necessary to prevent it from contact with air, moisture, etc., and chemical reactions occur. In addition, the amount used should be precisely controlled. Too much or too little can affect the reaction result. Too much, or cause side reactions to increase, and the purity of the product decreases; too little, the reaction is incomplete and the yield decreases. At the end, use Solketal equipment and utensils, and clean them properly after use. Residual Solketal may affect the next use, or react with subsequent substances, causing damage to equipment or affecting the accuracy of experiments and production.