W
Wolfgang Wernsdorfer
Researcher at Karlsruhe Institute of Technology
Publications - 645
Citations - 54558
Wolfgang Wernsdorfer is an academic researcher from Karlsruhe Institute of Technology. The author has contributed to research in topics: Magnetization & Single-molecule magnet. The author has an hindex of 121, co-authored 629 publications receiving 50707 citations. Previous affiliations of Wolfgang Wernsdorfer include Pierre-and-Marie-Curie University & University of Florida.
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Molecular spintronics using single-molecule magnets
Lapo Bogani,Wolfgang Wernsdorfer +1 more
TL;DR: This work reviews the first progress in the resulting field, molecular spintronics, which will enable the manipulation of spin and charges in electronic devices containing one or more molecules, and discusses the advantages over more conventional materials, and the potential applications in information storage and processing.
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Quantum Phase Interference and Parity Effects in Magnetic Molecular Clusters
TL;DR: Transitions between quantum numbers M = -S and (S - n), with n even or odd, revealed a parity effect that is analogous to the suppression of tunneling predicted for half-integer spins, direct evidence of the topological part of the quantum spin phase (Berry phase) in a magnetic system.
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Exchange-biased quantum tunnelling in a supramolecular dimer of single-molecule magnets
TL;DR: A supramolecular SMM dimer in which antiferromagnetic coupling between the two components results in quantum behaviour different from that of the individual SMMs, suggesting a means of tuning the quantum tunnelling of magnetization in SMMs.
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A Stable Pentagonal Bipyramidal Dy(III) Single-Ion Magnet with a Record Magnetization Reversal Barrier over 1000 K.
Jiang Liu,Yan-Cong Chen,Jun-Liang Liu,Veacheslav Vieru,Liviu Ungur,Liviu Ungur,Jian-Hua Jia,Liviu F. Chibotaru,Yanhua Lan,Wolfgang Wernsdorfer,Song Gao,Xiao-Ming Chen,Ming-Liang Tong +12 more
TL;DR: Two highly stable and neutral Dy(III) classical coordination compounds with pentagonal bipyramidal local geometry that exhibit SMM behavior are reported.
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Giant single-molecule magnets: a [Mn84] torus and its supramolecular nanotubes.
Anastasios J. Tasiopoulos,Alina Vinslava,Wolfgang Wernsdorfer,Khalil A. Abboud,George Christou +4 more
TL;DR: Christou et al. as discussed by the authors showed that individual molecules can function as magnets provided a new, bottom-up approach to nanoscale magnetic materials, and such molecules have since been used for a variety of applications.