Metathesis
Olefin methathesis is an organic reaction that features the rearrangement of carbon-carbon double bonds by the redistribution of alkene fragments. It has led scientists to discover new disconnections in organic synthesis, paving the way for new advances in polymer chemistry, drug discovery, and natural product synthesis. There are three main classes of metathesis reactions: ring-closing metathesis and cross metathesis are utilized regularly for small molecule organic synthesis, while ring-opening metathesis is frequently used for polymerization.
Featured Categories
Your Solvent Source: Find the right fit with Supelco®, SigmaAldrich®, & SAFC® brands, covering analytical, lab, & biopharmaceutical uses. Order online.
Find the basic components needed to drive your research forward in our portfolio of organic building blocks. Alkenesm alkanes, alkynes, arenes, allenes & more!
We’re proud to offer a comprehensive portfolio of heterocyclic building blocks, one of the largest and most diverse families of molecular fragments used in organic synthesis.
Explore our exceptional portfolio of olefin metathesis catalysts and take advantage of Grubbs’ technical expertise to advance your research and breakthrough synthesis ideas.
The most common and recognizable application of olefin metathesis in organic synthesis is ring-closing metathesis (RCM), an intramolecular reaction of an acyclic diene to form a ring. This methodology allows for the construction of all-carbon and heteroatom-containing rings that are rich in sp3-centers, a growing theme in modern medicinal chemistry.1
Cross metathesis brings two olefins together in an intermolecular reaction to give an olefin product bearing substituent from each of the starting olefins. Excellent functional group compatibility, in addition to a tolerance of residual moisture and oxygen, have facilitated the broad acceptance of ruthenium-catalyzed macrocyclization as a general methodology for the preparation of large rings (≥12 atoms).2
Ring-opening metathesis polymerization (ROMP) designs polymers with tunable properties and has become a powerful technological advancement in the arena of facilitated synthesis. Due to the low cost and readily available starting materials, this robust polymerization methodology can be used to produce polymers on a large scale.3
Figure 1.Ring-closing metathesis (RCM)
Figure 2.Cross Metathesis (CM)
Figure 3.Ring-opening metathesis (ROM(P))
Visit our document search for data sheets, certificates and technical documentation.
Related Articles
- Metal-enhanced organic synthesis via organometallic intermediates is a widely used preparative route for thousands of organic compounds.
- New! Rh2(esp)2, and exceptionally efficient and selective catalyst for C-H amination.
- Lipshutz and co-workers have recently developed a second generation technology to their original PTS-enabling surfactant based on the polyoxyethanyl-α-tocopheryl succinate derivative, TPGS-750-M.
- Metal complex-catalyzed cross-coupling reactions of unactivated substrates introduce diverse phosphine ligands in chemical marketplace.
- Olefin metathesis is now a well-entrenched synthetic technique, and is a powerful method for the clean construction of innumerable classes of chemical architectures.
- See All (12)
Related Protocols
Find More Articles and Protocols
How Can We Help
In case of any questions, please submit a customer support request
or talk to our customer service team:
Email custserv@sial.com
or call +1 (800) 244-1173
Additional Support
- Chromatogram Search
Use the Chromatogram Search to identify unknown compounds in your sample.
- Calculators & Apps
Web Toolbox - science research tools and resources for analytical chemistry, life science, chemical synthesis and materials science.
- Customer Support Request
Customer support including help with orders, products, accounts, and website technical issues.
- FAQ
Explore our Frequently Asked Questions for answers to commonly asked questions about our products and services.
References
To continue reading please sign in or create an account.
Don't Have An Account?