Publication | Closed Access
Boron Chemistry Lights the Way: Optical Properties of Molecular and Polymeric Systems C.D.E. thanks EPSRC for a postgraduate studentship and Syngenta for a postgraduate scholarship, and T.B.M. thanks the University of Durham for support and Prof. Dr. K. Tamao for a preprint of ref. 32.
760
Citations
0
References
2002
Year
Optical MaterialsBoron Chemistry LightsEngineering4-Coordinate BoronChemistryOptical CharacterizationElectronic StructureThanks EpsrcSpectroscopic PropertyBoropheneBoron NitrideBoron ClustersOptical PropertiesPhotophysical PropertyThree-coordinate BoronPhysicsPhotonic MaterialsOptoelectronic MaterialsPhysical ChemistryQuantum ChemistryOrganic Charge-transfer CompoundElectronic MaterialsNatural SciencesApplied Physics
Electrooptical and electronic materials are the subject of much research interest, whereby the focus has often been on electron-rich organic molecules. In the past years, new routes to electron-deficient systems have been developed that take advantage of the fact that three-coordinate boron is isoelectronic and isostructural with a positively charged carbocation, which allows neutral, p-type materials to be synthesized directly. This minireview summarizes recent work on compounds with 3- and 4-coordinate boron as well as boron clusters, placing it in the context of prior studies by the research groups of Williams and Glowgowski, Kaim, Lequan, and Marder.