All-polymeric control of nanoferronics
Author(s)
Xu, B.; Hall, A.; Gao, W.; Gong, M.; Yuan, G.; Ren, S.; Li, Huashan; Grossman, Jeffrey C.; ... Show more Show less
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In the search for light and flexible nanoferronics, significant research effort is geared toward discovering the coexisting magnetic and electric orders in crystalline charge-transfer complexes. We report the first example of multiferroicity in centimeter-sized crystalline polymeric charge-transfer superstructures that grow at the liquidair interface and are controlled by the regioregularity of the polymeric chain. The charge order-driven ferroic mechanism reveals spontaneous and hysteretic polarization and magnetization at the donor-acceptor interface. The charge transfer and ordering in the ferroic assemblies depend critically on the self-organizing and molecular packing of electron donors and acceptors. The invention described here not only represents a new coupling mechanism of magnetic and electric ordering but also creates a new class of emerging all-organic nanoferronics. Keywords: self-assembly; crystalline structures; magnetoelectrics; charge transfer
Date issued
2015-12Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Department of Materials Science and EngineeringJournal
Science Advances
Publisher
American Association for the Advancement of Science (AAAS)
Citation
Xu, B. et al. “All-Polymeric Control of Nanoferronics.” Science Advances 1, 11 (December 2015): e1501264–e1501264 © The Authors
Version: Final published version
ISSN
2375-2548