1、乙酸乙酯_百度百科
乙酸乙酯(ethyl acetate),又称醋酸乙酯,是一种有机化合物,化学式为C4H8O2,是一种具有官能团-COOR的酯类(碳与氧之间是双键),能发生醇解、氨解、酯交换、还原等一般酯的共同反应,主要用作溶剂、食用香料、清洗去油剂。
2、Ethyl Acetate
Ethyl acetate is the acetate ester formed between acetic acid and ethanol. It has a role as a metabolite, a polar aprotic solvent, a Saccharomyces cerevisiae metabolite and an EC 3.4.19.3 (pyroglutamyl-peptidase I) inhibitor.
3、乙酸乙酯_化工百科
中文名:乙酸乙酯,英文名:Ethyl acetate,CAS:141-78-6,可用于溶解硝化纤维素、油墨、油脂等,亦可用于造漆、人造革、塑料制品、染料、药物和香料等的原料.化学式:C4H8O2,分子量:88.1051,密度:0.898g/cm<sup>3</sup>,熔点:-83.5℃,沸点:73.9°C at 760 mmHg,闪点:26 °F,水溶性:80 g ...
4、Acetic Acid Ethyl Ester
Acetic acid ethyl ester, commonly known as ethyl acetate, is defined as the ester formed from ethanol and acetic acid, produced primarily through the Fischer esterification reaction.
5、Ethyl acetate
Ethyl acetate, also known as ethyl ethanoate, is an important and widely used chemical in industry. It has an important role as a solvent in adhesives, paints, or coatings, and it can be used to substitute aromatic solvents such as toluene.
21.6: Chemistry of Esters
Their low reactivity makes the easy to work with and they are stable enough to be used as a solvent in organic reactions (ex. ethyl acetate). Esters are still reactive enough to undergo hydrolysis to form carboxylic acids, alcoholysis, to form different esters, and aminolysis to form amides.
Ethyl Acetate: Structure, Properties, Uses & Safety in Chemistry
A ethyl acetate refers to an organic ester formed by the reaction between ethanol and acetic acid. This concept appears in chapters related to esterification, alcohols, and carboxylic acids, making it a foundational part of your chemistry syllabus.
Ethylene esters and ethyl esters: chemical structure, uses, and differences
This article will provide a detailed introduction to the chemical structures, uses, and differences between ethylene esters and ethyl esters.
Ethyl Acetate
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Ethyl acetate
Ethyl acetate is synthesized via the Fischer esterification reaction from acetic acid and ethanol, typically in the presence of an acid catalyst such as sulfuric acid. Industrially, ethyl acetate can be produced by the catalytic dehydrogenation of ethanol.
Within the field of chemistry, the synthesis and reactions of substances serve as a critical driving force for scientific advancement. Ethylene acetate ethyl ester, an important organic compound, plays a significant role across various industries, including pharmaceuticals, agriculture, and industrial manufacturing. This article explores its primary functions and applications in depth.
Ethylene acetate ethyl ester is a compound with a unique structure, synthesized through the addition polymerization reaction of ethylene and ethyl acetate under catalytic conditions. This process not only demonstrates the complexity of chemical reactions but also highlights the ingenuity and creativity of chemical engineers. The structure of ethylene acetate ethyl ester determines its distinct physical and chemical properties, such as a high boiling point, low volatility, and excellent stability, which enable its widespread use in industrial processes.
Applications in Pharmaceuticals
In the pharmaceutical industry, ethylene acetate ethyl ester is extensively utilized in drug formulation and production. By reacting with other chemicals, it can be transformed into various active pharmaceutical ingredients (APIs), including antibiotics, anticancer drugs, and antiviral medications. These drugs are crucial for treating diseases and safeguarding human health. Additionally, ethylene acetate ethyl ester is employed in the production of vaccines and biopharmaceuticals, providing effective tools for disease prevention and control.
Roles in Agriculture
Ethylene acetate ethyl ester also plays a vital role in agriculture. As a highly efficient insecticide, it helps control pests on crops, reducing the reliance on conventional pesticides and lowering environmental pollution risks. Furthermore, it serves as a plant growth regulator, promoting plant development and enhancing agricultural yield and quality.
Industrial Applications
In industrial settings, ethylene acetate ethyl ester is widely applied. As a solvent and thinner, it improves the quality and performance of coatings, inks, and adhesives. It is also used in the processing of plastics, rubber, and fibers to enhance their physical and chemical properties.
Challenges and Considerations
Despite its benefits, the use of ethylene acetate ethyl ester poses certain challenges. Due to its flammable and explosive nature, strict adherence to safety protocols is required during production and handling. Additionally, its manufacturing and disposal processes may generate hazardous substances or pollution, posing risks to environmental and human health. measures must be implemented to minimize environmental impact and ensure safety.
Ethylene acetate ethyl ester is a versatile organic compound with far-reaching applications in pharmaceuticals, agriculture, and industry. By understanding its functions and applications, we can better leverage this resource to advance human progress. addressing its associated challenges through sustainable practices remains essential for achieving long-term development goals.
