Hey there! As a supplier of 2 - Acetylthiophene, I'm super stoked to dive into the physical properties of this pretty cool compound. 2 - Acetylthiophene, also known as methyl 2 - thienyl ketone, has some interesting characteristics that make it useful in various industries.
Appearance and Odor
First off, let's talk about how it looks and smells. 2 - Acetylthiophene is a yellowish - brown to light brown liquid at room temperature. It's got this kind of distinct, sweetish, and somewhat floral odor. It might sound strange, but that odor can actually be a key identifier when you're working with it. You know, in a lab or a production setting, sometimes just a quick sniff (with proper safety precautions, of course) can give you a hint that you're dealing with the right stuff.
Boiling and Melting Points
The boiling point of 2 - Acetylthiophene is around 214 - 216 °C. This relatively high boiling point means it's a fairly stable compound when it comes to heat. You can heat it up a fair bit before it starts to turn into a gas. On the flip side, its melting point is about 10 - 11 °C. So, in most normal, non - wintery conditions, it'll be in its liquid state. This property is important in manufacturing processes where you might need to control the state of the compound. For example, if you're using it in a chemical reaction that requires a liquid medium, you know it'll stay liquid under typical working temperatures.
Solubility
When it comes to solubility, 2 - Acetylthiophene is soluble in common organic solvents like ethanol, ether, and chloroform. But it's insoluble in water. This solubility profile is crucial for its applications. In the pharmaceutical industry, for instance, its solubility in organic solvents allows it to be easily incorporated into various formulations. If you're making a drug that needs to be dissolved in an organic carrier, 2 - Acetylthiophene can fit right in. On the other hand, its insolubility in water can be an advantage in some cases. It can be separated from aqueous solutions easily, which simplifies purification processes.
Density
The density of 2 - Acetylthiophene is approximately 1.163 g/cm³ at 25 °C. This density value is important for measuring and handling the compound. When you're working with it in a lab or a production facility, knowing the density helps you accurately measure the amount you need. For example, if you're following a recipe for a chemical reaction and it calls for a certain mass of 2 - Acetylthiophene, you can use the density to convert that to a volume measurement, which is often easier to measure precisely.
Refractive Index
The refractive index of 2 - Acetylthiophene is about 1.563. The refractive index is a measure of how much light bends when it passes through the compound. This property can be used to identify the purity of 2 - Acetylthiophene. If the refractive index of a sample deviates from the known value, it could indicate the presence of impurities. In quality control processes, this is a handy parameter to check.
Applications Based on Physical Properties
The physical properties of 2 - Acetylthiophene make it suitable for a wide range of applications. In the pharmaceutical industry, its solubility in organic solvents and stability at relatively high temperatures allow it to be used as an intermediate in the synthesis of various drugs. It can react with other compounds to form more complex molecules with therapeutic properties.
In the fragrance industry, its sweetish and floral odor makes it a valuable ingredient. Perfume makers can use it to add a unique note to their scents. And because it's a liquid at room temperature and has a relatively high boiling point, it can be easily incorporated into perfume formulations and will last on the skin for a reasonable amount of time.
Related Compounds and Their Links
There are also some related compounds that are worth mentioning. For example, 2-Thiopheneacetyl Chloride is another important pharmaceutical intermediate. It has different physical properties but can be used in conjunction with 2 - Acetylthiophene in certain chemical reactions.
N,N-Carbonyldiimidazole is also a compound that can be used in the synthesis processes involving 2 - Acetylthiophene. It's a useful reagent in organic chemistry, and its properties can complement those of 2 - Acetylthiophene to drive specific chemical reactions forward.
And then there's HMDS For Silicon Surface Treatment. While it might seem a bit off - topic at first, in some high - tech manufacturing processes, the properties of these compounds can interact in interesting ways. For example, in the production of microchips or other silicon - based devices, the surface treatment properties of HMDS can be related to the use of 2 - Acetylthiophene in the overall manufacturing environment.
Why Choose Our 2 - Acetylthiophene
As a supplier, we take pride in providing high - quality 2 - Acetylthiophene. We ensure that our product meets the strictest quality standards. Our 2 - Acetylthiophene has consistent physical properties, which means you can rely on it for your specific applications. Whether you're in the pharmaceutical, fragrance, or any other industry that uses this compound, you can count on us to deliver a product that performs as expected.
If you're in the market for 2 - Acetylthiophene, we'd love to have a chat with you. We can discuss your requirements, answer any questions you might have about the product, and work out the best deal for you. So, don't hesitate to reach out and start a conversation about your procurement needs.
References
- "The Merck Index: An Encyclopedia of Chemicals, Drugs, and Biologicals", 15th Edition.
- Journal of Organic Chemistry, various issues related to thiophene derivatives.
So, that's a rundown of the physical properties of 2 - Acetylthiophene. I hope this blog has been informative for you. If you have any more questions or want to learn more, feel free to ask! And remember, if you're looking for a reliable supplier of 2 - Acetylthiophene, we're here for you.