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March 21, 2011 - Volume 89, Number 12
- p. 41
Science & Technology Concentrates
More Science & Technology Concentrates
- Plant Sex Requires D-Serine
- D-serine signaling helps guide pollen tube cells to their ovule objective
- Atomic Emission Spectrometer Shrinks
- Lightweight, inexpensive instrument uses wire from a light bulb
- Building Boron-Containing Polyphenylenes
- Ring-opening reaction provides a better route to oligomer building blocks for making optoelectronic materials
- Better Way To Organic Photovoltaics
- All-carbon composite solar cell made from organic components suspended in water
- Catalytic, Enantioselective Use of Organolithiums
- Methodology opens the door to popular reagents’ use for making chiral molecules
- Magnetic Field Triggers Liposome Release
- Confocal laser scanning microscopy used to spy on lipid vesicles as they release their payload in a low-frequency magnetic field
- Regenerating Hydrogen-Fuel Storage Material
- Hydrazine treatment restores spent polyborazylene to ammonia borane fuel
- Fullerenes In A Box
- Porphyrin cage sequesters massive aromatic guests
Topics Covered
Thanks to a spontaneous ring-opening reaction, there’s now a better route to boron-containing building blocks for making optoelectronic materials (J. Am. Chem. Soc., DOI: 10.1021/ja110947k). Incorporating electron-deficient boron into the extended π-electron system of polyphenylenes is a powerful tool chemists can use to tweak the properties of these materials for use in organic electronics and photonics. But only a few limited, two-component condensation polymerization pathways to boron-containing polyphenylenes have been developed. A team led by Matthias Wagner and Max C. Holthausen of Goethe University, in Frankfurt, Germany, has now found a versatile single-component approach: the in situ synthesis of the unstable antiaromatic compound borafluorene, which undergoes a spontaneous ring-opening reaction leading to single-crystalline boron-containing phenylene oligomers. The oligomer backbone (pentamer shown) is reinforced by three-center, two-electron B–H–B bridging bonds, Wagner explains. These bonds reversibly break and re-form, enabling them to react with alkynes. This treatment establishes a π-delocalized system via three-coordinate boron bridges, offering new options to influence the properties of polyphenylenes, he notes.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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