-
February 8, 2010 - Volume 88, Number 06
- p. 49
Science & Technology Concentrates
More Science & Technology Concentrates
- Mosquito Olfaction
- Studying how mosquito odorant receptors respond to “human volatiles” could improve control of the disease-transmitting insects
- Tree Bark Inspires Vaccine Adjuvants
- Synthetic saponin analogs have potential to improve immune response to vaccines and thus improve vaccine efficacy
- New Kinase Matchmaker
- Photoactivated ATP analog is the first phosphorylation-dependent tool for mediating kinase-substrate cross-linking
- A Methyl Group Makes Us Complex
- Histone methylation recruits mRNA splicing machinery, helping explain how humans are so complex with relatively few genes
- Study Strengthens Alzheimer’s Link To Cholesterol
- Findings on the mechanism of a cholesterol metabolism pathway could aid development of new therapeutics
- Versatile Ketene Polymers
- Seldom-used ketene group is a useful addition to the growing list of functionalization strategies for polymer chemistry
- Chiral Sulfide Boosts Ylide Chemistry
- Inexpensive isothiocineole demonstrates high selectivity in asymmetric syntheses of epoxides and aziridines
- Exoplanet’s Methane Spotted From Hawaii
- A Mauna Kea infrared telescope detects gases in the atmosphere of a distant planet––a first from Earth’s surface
Topics Covered
A new class of polymers based on the seldom-used ketene group (–C=C=O) could help meet the demand for materials in which a single chemical moiety performs multiple roles, such as facilitating cross-linking, light harvesting, and ligation (Nat. Chem., DOI: 10.1038/nchem.538). To create the ketene-based polymers, a team led by Bongjin Moon of South Korea’s Sogang University and Craig. J. Hawker of the University of California, Santa Barbara, used Meldrum’s acid as both a monomer building block and a precursor to the reactive ketene group. When a polymer prepared from a monomer containing Meldrum’s acid is heated, the dioxodione ring of the Meldrum’s acid moeity loses acetone and carbon dioxide to form a ketene. The ketene provides a means to cross-link polymers by dimerization and acts as a reactive handle to attach functional molecules—both actions can occur at the same time to make copolymers, such as the one shown below. To demonstrate the versatility of the polymers, the researchers patterned a fluorescent dye on the surface of a polymer film by microcontact printing; heating the film generated the ketene, which covalently attached the dye to the polymer. Hawker believes the ketene-based chemistry could become a useful addition to the growing list of functionalization strategies for polymer chemistry.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
Services & Tools
ACS Resources
ACS Careers
ACS is the leading employment source for recruiting scientific professionals. ACS Careers and C&EN Classifieds provide employers direct access to scientific talent both in print and online. Jobseekers | Employers
» Join ACS
Join more than 161,000 professionals in the chemical sciences world-wide, as a member of the American Chemical Society.
» Join Now!