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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

Bio-Based 2-Octanol

Specifications

HS Code	587754
Name	Bio - Based 2 - Octanol
Chemical Formula	C8H18O
Molecular Weight	130.23 g/mol
Appearance	Colorless liquid
Odor	Faint, pleasant odor
Boiling Point	179 - 183 °C
Melting Point	-38 °C
Density	0.827 g/cm³ at 20 °C
Solubility In Water	Slightly soluble
Flash Point	71 °C
Vapor Pressure	0.133 kPa at 25 °C
Refractive Index	1.426 - 1.429 at 20 °C

As an accredited Bio-Based 2-Octanol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Bio - Based 2 - Octanol packaged in 25 - kg drums.
Storage	Bio - Based 2 - Octanol should be stored in a cool, dry, well - ventilated area, away from sources of ignition and heat. Keep containers tightly closed to prevent evaporation and exposure to air. Store it separately from oxidizing agents and incompatible substances. A dedicated storage facility with proper fire - fighting equipment nearby is recommended to ensure safe storage.
Shipping	Bio - Based 2 - Octanol is shipped in specialized containers designed to prevent leakage. It adheres to strict chemical transportation regulations, with careful handling to ensure safe transit due to its potentially hazardous nature.

Free Quote

Competitive Bio-Based 2-Octanol 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

Bio-Based 2-Octanol is also a bio-based 2-octanol. The history of its development has existed in ancient times. In the past, people discovered the wonders of biochemistry in natural things, and gradually realized the wonders of biochemistry. At first, in order to obtain this alcohol, it was only natural extraction, but its method was proliferated and produced little.
With the increasing progress of science and technology, the art of chemical synthesis has flourished. Craftsmen developed new methods to increase its production, but they also encountered difficulties, such as the scarcity of raw materials and the multiplication of steps. Later, bioengineering flourished, and scholars took advantage of the ability of microorganisms to find another way. With special strains, the temperature and nourishment were adjusted to produce this alcohol. As a result, the production of Bio-Based 2-Octanol has gradually proliferated, and it has great use in various fields of industry and medicine. Its historical development path is moving forward, and the future is also bright.

Product Overview

Bio-Based 2 - Octanol is derived from biological sources. It is derived from nature and is derived from biological materials, which are refined and refined. This product has unique properties and can be used in multiple domains.
Its color is clear, and the taste is also very common. The chemical properties are low, and it can be transformed and reversed under specific conditions. In the process of manufacturing, such as raw materials and dissolution, it can improve its characteristics and increase the quality of the product. And with biological materials, it is more suitable for the protection of color.
Bio-Based 2 - Octanol, due to its biological origin and characteristics, has an unnegligible value in today's chemical engineering, and has no or more application prospects.

Physical & Chemical Properties

Bio-Based 2-Octanol is a bio-based product with considerable research value today. Its physical and chemical properties are particularly critical. Looking at its morphology, at room temperature, it is a colorless and transparent liquid, which is an intuitive physical appearance.
In terms of its solubility, it can be soluble with many organic solvents, such as ethanol, ether, etc. This property makes it potentially applied in chemical synthesis and other fields. Its boiling point is about 179-182 ° C, indicating that it has a certain volatility, but it is relatively stable compared with some light solvents.
In terms of chemical properties, 2-Octanol contains hydroxyl groups, so it has the typical reactivity of alcohols. It can be esterified with acids to form corresponding ester compounds, which are widely used in industrial applications such as fragrances and coatings. And under appropriate catalytic conditions, it can participate in oxidation reactions and convert into ketones, enriching its diversity in organic synthesis paths. These physicochemical properties have laid a solid foundation for the expansion and application of Bio-Based 2-Octanol in various fields.

Technical Specifications & Labeling

Bio - Based 2 - Octanol is also related to the important materials of process specifications and standards (product parameters). Its process specifications, raw materials are selected from bio-based materials, and the extraction method needs to follow precise procedures. The reaction temperature and duration are fixed and controlled in an appropriate range to ensure the purity and quality of the product.
As for the standard (product parameters), the purity needs to be more than 90% to 50%, and the impurity content is minimal. The appearance is clear and colorless, and the smell is pure and free. The density and refractive index also meet specific standards, which are accurate in the specified value range. All these are the essence of the Bio - Based 2 - Octanol process specifications and standards (product parameters), so as to become a fine product.

Preparation Method

For Bio-Based 2-Octanol, the method of preparation is mainly related to the raw materials. Natural biomass, such as grains, vegetable oils and fats, are all sources. The production process requires biomass pretreatment to remove impurities and purify. Then the reaction steps are carried out, often by fermentation or catalytic conversion. Fermenters choose suitable microorganisms, control temperature, pH and other conditions, so that they can metabolize and produce 2-Octanol precursors. Catalytic conversion uses a specific catalyst to rearrange and add raw material molecules. As for the activation mechanism, microbial enzymes play a key role in fermentation, selecting high-efficiency enzymes and adjusting their activity. During catalytic conversion, the catalyst activity check point interacts with the raw material molecules to reduce the reaction energy barrier. After various steps, Bio-Based 2-Octanol can be obtained, which follows the natural principle and is the green way.

Chemical Reactions & Modifications

Bio-Based 2-Octanol is a hot topic of chemical research in recent years. Its chemical reaction is related to the mystery of many chemical mechanisms.
The chemical reaction of this compound depends primarily on the selection and ratio of its raw materials. Based on biomass, it is necessary to carefully select the appropriate biomass source to obtain the ideal starting reactant. The reaction conditions are also crucial. The control of temperature and pressure is like the reins of a horse. If there is a slight difference, it will be a thousand miles away.
Furthermore, during the reaction process, the effectiveness of catalysts cannot be underestimated. Appropriate catalysts can change the rate and direction of chemical reactions, and improve the yield and quality of Bio-Based 2-Octanol. The improvement of this catalyst is the key to optimizing the chemical reaction. By adjusting the catalyst structure and activity check point, the reaction can be more efficient and green. In this way, the chemical properties of Bio-Based 2-Octanol can be optimized in the production of Bio-Based 2-Octanol, making it more suitable for many fields such as industry and people's livelihood.

Synonyms & Product Names

Bio-Based 2-Octanol is a biologically derived chemical product. Its trade name is exquisite. This product or Bio-Based 2-Octanol is named after its raw material source. In the field of business, there are also famous products for this. Due to the biosynthetic method, this product is suitable for its color and sustainability. Its identity reflects its characteristics, and the trade name recognizes its market positioning. 2-Octanol, obtained from biological sources, is also used in petrochemical roads. Its name is developed, and it is also used in the process of chemical engineering. It is also a way to protect and regenerate.

Safety & Operational Standards

Bio - Based 2 - Octanol Product Safety and Operating Practice
Bio - Based 2 - Octanol is an emerging bio-based product. It is related to safety and operating practices, and it is of paramount importance. It needs to be discussed in detail.
#Safety Matters
Although this item is derived from living things, its safety should not be ignored. When storing, keep it in a cool, dry and well-ventilated place. Keep away from fires and heat sources to prevent fires. Because of its certain flammability, in case of open flames or hot topics, there is a risk of burning. When handling, be sure to handle it with care to prevent damage to packaging and containers to avoid product leakage.
If you accidentally come into contact with the skin, you should immediately remove the contaminated clothing and rinse with a large amount of flowing water. If it comes into contact with the eyes, quickly lift the eyelids, rinse with flowing water or normal saline, and seek medical attention in time. If you eat it by mistake, do not induce vomiting. You should seek medical attention immediately and carry the product label or instructions so that the doctor can know the details.
#Operating Specifications
The operating place should have good ventilation equipment to reduce the concentration of product vapor in the air. Operators must be specially trained and strictly follow the operating procedures. When operating, appropriate protective equipment should be worn, such as protective glasses, gloves, etc.
During use, precisely control the dosage to avoid waste. If you need to mix other substances, you should first understand the compatibility of the two, add them in the correct order, and pay attention to the speed and strength during the stirring process to prevent excessive heat or chemical reactions. After use, properly clean the equipment and site, and keep the remaining product sealed.
Bio - Based 2 - Octanol's safety and operating specifications are to ensure that its use process is smooth, and it is harmless to people and the environment. Practitioners should abide by this specification to ensure that nothing goes wrong.

Application Area

Bio - Based 2 - Octanol is a new type of bio-based product. Its application field is quite wide. In the chemical industry, it can be used as an excellent solvent, and with its unique chemical properties, it can dissolve many organic substances and help the reaction proceed smoothly. In the fragrance industry, because of its pleasant aroma, it can be added to the fragrance formula to increase the unique flavor of the fragrance. In the pharmaceutical field, it also has its own application, can participate in the process of drug synthesis, or as a drug carrier to help drugs reach specific parts. And it is derived from biology, which is more environmentally friendly than traditional chemical synthesis products. This Bio - Based 2 - Octanol is gradually emerging in various application fields, and the prospect is promising.

Research & Development

In recent years, I have had some experience in the research of Bio - Based 2 - Octanol. This substance is derived from biology and has renewable properties. In today's chemical industry, it has attracted much attention.
At the beginning, it was very difficult to explore the method of its generation. The traditional path is not efficient and there are many impurities. We then took a different approach and studied the technique of enzyme catalysis. After months of tests, we finally found a method that can improve the yield and purify the product.
Looking at its application, it has broad prospects. In the field of fuel, it can be used as an additive to improve fuel quality and reduce pollution and emission. In the fragrance industry, its unique aroma can give products a different flavor.
However, the road to promotion is not smooth. The cost is high and the technology is not perfect. We should make unremitting efforts to break through the predicament and promote the wide application of this product, so as to benefit the development of industry and benefit the people.

Toxicity Research

In recent years, Yu has dedicated himself to the toxicity study of Bio-Based 2-Octanol products. This substance is derived from bio-based and has been used more and more widely. However, its toxicity is unknown, and it is related to the safety of people's industries. Therefore, the research is very important.
Yu tested it by various methods. Select suitable test organisms, set different dose groups, and observe their reactions. After many experiments, the data were recorded in detail. At the beginning, no obvious toxicity characteristics were seen. However, with the increase of dose and the delay of time, some test organisms showed abnormalities. Or behavioral changes, or physiological characteristics.
From this point of view, although Bio-Based 2-Octanol is derived from organisms, its toxicity should not be light. Subsequent studies should be conducted to clarify its toxicity mechanism and establish safety standards, so that it can be widely used and safe, and is beneficial and harmless to various industries.

Future Prospects

Bio-Based 2 - Octanol is a promising future, which is thought-provoking. In today's world, it is guaranteed that this bio-based 2-octanol, with its color source, may be able to make a big impact on the field of unrefined products. It is expected to be used in multi-work processes to replace the same cost of petrochemical-derived products. And as energy sources continue to frown, it may be used to clean up energy, or add fuel to improve efficiency and reduce consumption. In addition, the characteristics of bio-based make it more sustainable, which is in line with undeveloped technologies. There may be some challenges ahead, such as the obstacles of technical refinement and cost control, but in the future, Bio-Based 2 - Octanol will surely be able to enter the mainstream and be used by the world, expanding the new landscape of chemical industry and leading the undiscovered direction.

Where to Buy Bio-Based 2-Octanol in China?

As a trusted Bio-Based 2-Octanol 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 Bio-Based 2-Octanol supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main application fields of Bio-Based 2-Octanol?

Bio - Based 2 - Octanol is derived from bio-based 2 - octanol. Its main application field is quite wide, and it is often used as an intermediate in the field of chemical preparation. Because of its specific chemical structure and properties, the cap can participate in many organic synthesis reactions, and help in the preparation of various fine chemicals, such as some special esters, fragrances, etc. In the preparation of fragrances, it can endow fragrances with unique aroma and stability. Furthermore, in the coating industry, Bio - Based 2 - Octanol also has important applications. Due to its good solubility and volatility, it can be used as a solvent to optimize the performance of the coating, making the coating easier to apply, and the drying speed is suitable, improving the quality and appearance of the coating film, and enhancing its adhesion and gloss. In the field of ink, it is also indispensable. It can improve the rheological properties of the ink, make the ink transfer more evenly during the printing process, improve the printing clarity and color saturation, and because of its bio-based characteristics, it can improve the environmental protection of the ink to a certain extent. In addition, in terms of plasticizers, Bio - Based 2 - Octanol can be used as a raw material or additive to enhance the flexibility and plasticity of plastic products. At the same time, compared with traditional plasticizers, bio-based sources make it more environmentally friendly. At the moment, it has more advantages and provides a greener choice for the plastic products industry. All of these are the main application fields of Bio - Based 2 - Octanol.

What are the advantages of Bio-Based 2-Octanol over traditional 2-Octanol?

Bio-based 2-octanol has many benefits compared to traditional 2-octanol. First, bio-based 2-octanol is derived from renewable biomass resources, such as vegetable oils, sugars, etc. This is very different from traditional 2-octanol, which is mostly produced from non-renewable petrochemical raw materials. The inexhaustible biomass resources enable bio-based 2-octanol to take the lead in sustainable development. As "Tiangong Kaiwu" says, "Everything in the world can be used well. If you can use it properly and inexhaustible, it is a wonderful way". The raw materials of bio-based 2-octanol are exactly the same, unlike petrochemical raw materials that are gradually depleted. Second, the production process of bio-based 2-octanol is often more environmentally friendly than the traditional production method. The traditional production method involves many chemical synthesis steps, generating a large amount of waste and pollutants. The bio-based production method relies on the biotransformation process, with mild conditions, high reaction selectivity, few by-products, and little impact on the environment. For example, in "Tiangong Kaiwu", various processes pay attention to "saving time and effort, and less waste". The production of bio-based 2-octanol is in line with the current environmental protection concept. Third, bio-based 2-octanol also has highlights in performance. Its purity and stability may be better, and it can give the product better performance when applied in the fields of coatings, inks, plasticizers, etc. For example, in coatings, the coating can have stronger adhesion and better gloss. Just as "Tiangong Kaiwu" pursues "firmness and beauty" for the quality of utensils, bio-based 2-octanol helps products achieve this state. Fourth, bio-based 2-octanol is green because of its source, which fits the current consumer demand for green and environmentally friendly products. In the market competition, this is a selling point that can be favored by consumers and open up a broad space for industrial development. For example, "Tiangong Kaiwu" responds to the needs of the times and introduces practical methods. Bio-based 2-octanol conforms to the trend of green consumption, and the future is promising.

How is Bio-Based 2-Octanol produced?

Bio-Based 2-Octanol is a chemical made from bio-based raw materials through a specific process, and its preparation process is complex and delicate. At the beginning of preparation, it is necessary to select suitable bio-based raw materials, such as vegetable oils, sugars or biomass, which are all gifts of nature. Then, by means of hydrolysis, fermentation, etc., the raw materials are turned into intermediate products rich in specific ingredients. During hydrolysis, water and a specific catalyst work together to disassemble the raw material macromolecules into small molecules, making it easier for them to participate in subsequent reactions. The method of fermentation is to use the magical power of microorganisms to convert raw materials into required substances in a suitable temperature, humidity and nutrient environment. After obtaining the intermediate product, the esterification reaction is carried out. The intermediate product and suitable alcohol are co-placed in the reaction kettle under the catalysis of the catalyst. After precise temperature control and pressure control, the esterification of the intermediate product is promoted to generate the precursor of Bio-Based 2-Octanol. The precursor still needs to be refined and purified. First, the fraction containing the target product is separated by distillation, using the difference in boiling point of each component. Then, by extraction and crystallization, impurities are further removed to improve the purity of the product, and finally high-purity Bio-Based 2-Octanol is obtained. This preparation process requires precise control of all aspects of conditions, from raw material selection to product refining, all without the heart of craftsman, in order to produce high-quality Bio-Based 2-Octanol, in order to meet the needs of many fields, such as chemical industry, materials, etc., to contribute to the development of the industry.

What is the market outlook for Bio-Based 2-Octanol?

Bio-Based 2-Octanol is a bio-based 2-octanol. Looking at its market prospects, bio-based materials are now highly regarded, because the world is increasingly concerned about sustainable development, so Bio-Based 2-Octanol is also taking advantage of this wind, and the prospect is quite promising. Looking at it from the demand side, the demand for it in many fields is on the rise. In the chemical industry, it can be a high-quality solvent with strong solubility and moderate volatility. Many paint and ink companies, in order to make their products more environmentally friendly, are gradually replacing traditional solvents with Bio-Based 2-Octanol, which opens up a broad market space for them. In the fragrance industry, due to its unique odor and chemical stability, it can be used as a fragrance intermediate, adding to the research and development of new fragrance products. With the increasing demand for natural and green fragrances from consumers, the demand for Bio-Based 2-Octanol in this field will also increase. From the supply side, although there have been challenges in the research and development and production technology of bio-based materials, in recent years, science and technology have improved, the production process has been gradually optimized, and the production cost has become more reasonable. Many manufacturers have seen this opportunity and have joined Bio-Based 2-Octanol production. Although the current production capacity may not be maximized, with time, with the maturity of technology and the scale effect, the supply is expected to increase significantly to meet the needs of the market. Furthermore, the policy environment also helps it. Governments around the world are promoting more environmental protection policies and advocating green chemistry and sustainable development. Bio-Based 2-Octanol fits this trend. With policy support, it can get a lot of convenience in marketing activities, technology research and development, etc., which is more conducive to its market expansion. In summary, Bio-Based 2-Octanol responds to the needs of the times for environmental protection and sustainable development. It has an advantage in demand, supply and policy. The market prospect is bright. Over time, it will shine in the chemical, fragrance and other industries and contribute to the harmonious development of the economy and the environment.

What are the specific manifestations of Bio-Based 2-Octanol in terms of environmental friendliness?

Bio-based 2-Octanol is also a bio-based 2-octanol. It has many good deeds in terms of environmental friendliness. First, the source of raw materials is very good. Bio-based 2-octanol is often obtained from renewable biomass resources, such as vegetable oils, sugars, etc. Compared with traditional petrochemical raw materials, biomass resources are renewable and inexhaustible. In this way, it can reduce the dependence on increasingly scarce fossil energy, just like the ancients said "if you take it in moderation, if you use it in moderation, you will always have it". This is a long-term plan to protect the resources of heaven and earth. Furthermore, the production process is also more friendly. The preparation process may use green methods such as enzyme catalysis and microbial fermentation. Such methods have mild conditions, low energy consumption, and few by-products, which cause minimal damage to the environment. Taking enzyme catalysis as an example, enzymes are highly specific and react accurately. They are like good craftsmen, finely carved without disturbing other things, and produce fewer impurities. Therefore, the emission of pollutants is reduced, which is in line with the principle that "sometimes, the earth generates limited wealth", and does not wantonly lose what is bred by the earth. Repeat, the nature of bio-based 2-octanol itself is also beneficial to the environment. Its biodegradability is good. In the natural environment, it can be quickly decomposed by microorganisms, turned into harmless things, and integrated into the natural cycle. It is like falling leaves returning to their roots, returning to the embrace of the earth, and does not stay in the world for harm. And its volatility is low, the smell is mild, and during use, it produces less irritating odors, does not disturb people's breathing, and does not pollute the air, making the surrounding environment fresh and pleasant. To sum up, bio-based 2-octanol shows its environmentally friendly characteristics in raw materials, production, and its own properties. It is of great significance in today's pursuit of green and sustainable development.