Interesting facts
Exploring Methyl Heptanoate
Methyl heptanoate, an intriguing ester compound, has piqued the interest of many within the fields of chemistry and biochemistry. It is well-known for its unique properties and significant applications. Here are some fascinating facts about this compound:
- Structure and Formation: Methyl heptanoate is derived from heptanoic acid and methanol through the process of esterification. This reaction combines the alcohol and acid, yielding an ester and water as byproducts.
- Fragrance Characteristics: Often described as possessing a fruity aroma, methyl heptanoate is frequently used in the formulation of flavorings and fragrances, making it popular in the food and cosmetic industries.
- Natural Occurrence: This ester can be found in various natural sources, including certain fruits and plant oils. It contributes to the characteristic flavors and scents that many culinary delights offer.
- Applications Beyond Scent: Beyond its aromatic qualities, methyl heptanoate also serves as an important solvent and intermediate in organic synthesis. Its low toxicity makes it an attractive choice for manufacturing processes.
- Research Fields: This compound has drawn interest in research areas such as flavor chemistry and environmental chemistry. Its role in the ecosystem and ability to interact with various chemical systems are subjects of ongoing study.
In conclusion, methyl heptanoate stands out not only for its chemical structure but also for its versatility in numerous applications. It embodies the essence of how organic compounds can bridge diverse fields, from culinary arts to industrial processes. As researchers explore its properties further, we can anticipate discovering even more fascinating insights about this compound.
Synonyms
METHYL HEPTANOATE
106-73-0
Methyl enanthate
Heptanoic acid, methyl ester
Heptanoic acid methyl ester
Methyl heptoate
Methyl n-heptylate
Methyl oenanthylate
Methyl heptylate
Methyl n-heptanoate
FEMA No. 2705
Methyl heptylate (natural)
Enanthic Acid Methyl Ester
EINECS 203-428-8
Methyl ester of heptanoic acid
BRN 1747147
AI3-33581
UNII-1J543V5703
Heptanoic acid-methyl ester
1J543V5703
DTXSID3059345
METHYL HEPTANOATE [FHFI]
FEMA 2705
Methyl Heptanoate(Heptanoic Acid Methyl Ester)
4-02-00-00960 (Beilstein Handbook Reference)
MFCD00009537
HEPTANOIC ACID METHYL ESTER [MI]
Methyl nheptylate
methyl heptanoic acid
starbld0016644
SCHEMBL124702
DTXCID9033000
CHEBI:88620
Methyl heptanoate, >=99%, FG
BBL011469
LMFA07010961
STL146581
hexane-1-carboxylic acid methyl ester
Methyl heptanoate, analytical standard
AKOS005720979
VS-02955
DB-040704
HY-141610
CS-0182587
H0032
NS00012899
D90782
Q63395892
6AA46CE6-9176-493D-9A85-B7B2DDA47CCE
203-428-8
Solubility of Methyl Heptanoate
Methyl heptanoate, with the chemical formula C8H16O2, is an ester that demonstrates interesting solubility characteristics. Its solubility is influenced by the size and structure of its molecular chain, as well as the presence of functional groups.
Water Solubility
One of the key factors in determining solubility is polarity. Methyl heptanoate is relatively non-polar due to its long hydrocarbon chain, which makes it:
As a consequence of its non-polar nature, it does not easily interact with polar solvents such as water. Instead, it tends to separate out when mixed with water.
Solubility in Organic Solvents
However, methyl heptanoate is fairly soluble in organic solvents and non-polar liquids. This affinity arises from the following:
This property makes it useful in various applications, including flavoring and fragrance formulations where it blends well with other organic compounds.
Conclusion
In summary, while C8H16O2 demonstrates limited solubility in water, it shows significant solubility in non-polar organic solvents, allowing it to be effectively utilized in specific industrial contexts.