Houser, Christopher L.2019-07-132019-07-132019-07-12vt_gsexam:21603http://hdl.handle.net/10919/91440Several new families of organic acceptors that are candidates as building blocks of molecule-based ferrimagnets were synthesized and characterized. These families include fluorodicyanostilbenes, a tetrachlorodicyanostilbene, naphthyltricyanoethylenes, bromophenyltricyanoethylenes, and an anthryltricyanoethylene. The magnetic networks were synthesized by reacting each acceptor with V(CO)6. The magnets synthesized in this study were characterized using a SQUID magnetometer, elemental analysis, and infrared spectroscopy. Although some combinations failed to yield magnetically ordered materials, others exhibited ordering temperatures in the range of 95 K – 260 K. The ordering temperatures and saturation magnetizations were compared among families of acceptors and correlated with individual properties of the acceptors such as reduction potential and structure.ETDIn CopyrightmagnetismTCNE derivativesbridging radical anionsvanadium magnetsSynthesis of New Molecule-Based Magnets using Bridging Organic RadicalsDissertation