| Literature DB >> 23349286 |
Jonathan C Barnes1, Albert C Fahrenbach, Dennis Cao, Scott M Dyar, Marco Frasconi, Marc A Giesener, Diego Benítez, Ekaterina Tkatchouk, Oleksandr Chernyashevskyy, Weon Ho Shin, Hao Li, Srinivasan Sampath, Charlotte L Stern, Amy A Sarjeant, Karel J Hartlieb, Zhichang Liu, Raanan Carmieli, Youssry Y Botros, Jang Wook Choi, Alexandra M Z Slawin, John B Ketterson, Michael R Wasielewski, William A Goddard, J Fraser Stoddart.
Abstract
Most organic radicals possess short lifetimes and quickly undergo dimerization or oxidation. Here, we report on the synthesis by radical templation of a class of air- and water-stable organic radicals, trapped within a homo[2]catenane composed of two rigid and fixed cyclobis(paraquat-p-phenylene) rings. The highly energetic octacationic homo[2]catenane, which is capable of accepting up to eight electrons, can be configured reversibly, both chemically and electrochemically, between each one of six experimentally accessible redox states (0, 2+, 4+, 6+, 7+, and 8+) from within the total of nine states evaluated by quantum mechanical methods. All six of the observable redox states have been identified by electrochemical techniques, three (4+, 6+, and 7+) have been characterized by x-ray crystallography, four (4+, 6+, 7+, and 8+) by electron paramagnetic resonance spectroscopy, one (7+) by superconducting quantum interference device magnetometry, and one (8+) by nuclear magnetic resonance spectroscopy.Entities:
Year: 2013 PMID: 23349286 DOI: 10.1126/science.1228429
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728