15229-79-5

Basic information

• Product Name: (4Z,8Z)-cyclododeca-4,8-dien-1-one
• Synonyms: (4Z,8Z)-Cyclododeca-4,8-dien-1-one; 4,8-cyclododecadien-1-one, (4Z,8Z)-
• CAS NO: 15229-79-5
• Molecular Formula: C₁₂H₁₈O
• Molecular Weight: 178.2707
• EINECS: 941-893-5
• Mol File: 15229-79-5.mol
• Article Data: 7

Chemical Properties

• Boiling Point: 288.6°C at 760 mmHg
• Flash Point: 119.2°C
• Density: 0.909g/cm³
• Vapor Pressure: 0.00232mmHg at 25°C
• Refractive Index: 1.47
• CAS DataBase Reference: (4Z,8Z)-cyclododeca-4,8-dien-1-one(CAS DataBase Reference)
• NIST Chemistry Reference: (4Z,8Z)-cyclododeca-4,8-dien-1-one(15229-79-5)
• EPA Substance Registry System: (4Z,8Z)-cyclododeca-4,8-dien-1-one(15229-79-5)

Safety Data

• Hazardous Substances Data: 15229-79-5(Hazardous Substances Data)

Usage

Description

(4Z,8Z)-cyclododeca-4,8-dien-1-one, also known as cyclododecadienone, is a cyclic ketone with a 12-carbon ring structure and two conjugated double bonds in the 4th and 8th positions. It has a molecular formula of C12H18O and is known for its pleasant, fruity odor.

Uses

Used in Fragrance and Flavor Industry:
(4Z,8Z)-cyclododeca-4,8-dien-1-one is used as a key component in the production of fragrances and flavors due to its pleasant, fruity odor. It adds a unique and appealing scent to various products, making it a valuable ingredient in this industry.
Used in Organic Synthesis:
(4Z,8Z)-cyclododeca-4,8-dien-1-one serves as a starting material in the synthesis of various organic compounds. Its unique structure allows for the creation of a wide range of molecules, making it a versatile building block in organic chemistry.
Used in Pharmaceutical Industry:
(4Z,8Z)-cyclododeca-4,8-dien-1-one has potential applications in the pharmaceutical industry. Its unique structure and properties make it a promising candidate for the development of new drugs and therapeutic agents.
Used in Agrochemical Industry:
(4Z,8Z)-cyclododeca-4,8-dien-1-one also has potential applications in the agrochemical industry. Its unique properties may be harnessed for the development of new pesticides, herbicides, or other agricultural chemicals.
Used in Antimicrobial Applications:
(4Z,8Z)-cyclododeca-4,8-dien-1-one has been studied for its potential antimicrobial properties. Its ability to inhibit the growth of certain microorganisms makes it a promising candidate for use in antimicrobial applications.
Used in Antioxidant Applications:
(4Z,8Z)-cyclododeca-4,8-dien-1-one has also been studied for its potential antioxidant properties. Its ability to neutralize free radicals and protect against oxidative damage makes it a valuable compound in antioxidant applications.

Upstream product

• 943-93-1 1,2-epoxy-5,9-cyclododecadiene 
• 706-31-0 (1E,5E,9Z)-cyclododeca-1,5,9-triene 
• 4904-61-4 cyclododeca-1,5,9-triene 

Downstream Products

• 830-13-7 cyclododecanone 
• 112-54-9 Dodecanal 
• 112-53-8 1-dodecyl alcohol 
• 1724-39-6 cyclododecanol 
• 4373-07-3 cycloundecanecarboxaldehyde 

Relevant articles and documents

Effect of Localized Unsaturation on the Scalar Exchange Coupling in Flexible Biradicals

Time-resolved electron paramagnetic resonance (TREPR) spectra of flexible biradicals containing one and two double bonds are reported.Simulation of the strongly spin-polarized spectra allows determination of the scalar electronic exchange coupling J and the encounter rate ken between the two radical centers.Comparison of each unsaturated biradical with the saturated analogue of similar chain length shows that the J coupling increases with the double bonds present.This and other effects, such as that of the solvent on saturated biradical EPR spectra, are modeled and discussed in terms of both through-bond (TB) and through-solvent (TS) coupling mechanisms.Monte Carlo simulations of the chain dynamics and semiempirical molecular orbital calculations of overlap integrals support the hypothesis that isolated trans double bonds decrease the TS component of the J coupling while increasing the TB component.

Process for purifying dinitrogen monoxide

The present invention relates to a process for purifying a gas mixture comprising dinitrogen monoxide, at least comprising the at least partial condensation of a gas mixture G-I comprising dinitrogen monoxide to obtain a liquid composition C-1 comprising dinitrogen monoxide, and the contacting of the composition C-1 with a gas mixture M-1 to obtain a composition C-2 and a gas mixture M-2.

METHOD FOR THE PRODUCTION OF CYCLIC KETONES

The present invention relates to a process for preparing a cyclic ketone having from 7 to 16 carbon atoms, which comprises at least the steps (a) oxidation of a composition (I) comprising at least one cyclic olefin which has from 7 to 16 carbon atoms and at least one C—C double bond by means of dinitrogen monoxide to give a composition (A),(b) treatment of the composition (A) with at least one base to give a composition (B).