Hybrid rylene arrays have been prepared via a combination of Stille coupling and C−H transformation. The ability to extend the π system along the equatorial axis of rylenes not only leads to broadened light absorption but also increases the electron affinity, which can facilitate electron injection and transport with ambient stability.
Hybrid Rylene Arrays via Combination of Stille Coupling and C-H Transformation as High Performance Electron Transport Materials / W. Yue; A. Lv; J. Gao; W. Jiang; L. Hao; C. Li; Y. Li; L. E. Polander; S. Barlow; W. Hu; S. Di Motta; F. Negri; S. R. Marder; Z. Wang. - In: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. - ISSN 0002-7863. - ELETTRONICO. - 134:(2012), pp. 5770-5773. [10.1021/ja301184r]
Hybrid Rylene Arrays via Combination of Stille Coupling and C-H Transformation as High Performance Electron Transport Materials
DI MOTTA, SIMONE;NEGRI, FABRIZIA;
2012
Abstract
Hybrid rylene arrays have been prepared via a combination of Stille coupling and C−H transformation. The ability to extend the π system along the equatorial axis of rylenes not only leads to broadened light absorption but also increases the electron affinity, which can facilitate electron injection and transport with ambient stability.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
