His primary scientific interests are in Magnetization, Condensed matter physics, Crystallography, Single-molecule magnet and Magnet. He has included themes like Magnetic susceptibility, Quantum tunnelling and Relaxation, Nuclear magnetic resonance in his Magnetization study. His studies in Condensed matter physics integrate themes in fields like Magnetic domain, Single domain, Field, Magnetic field and Remanence.
His research in Crystallography intersects with topics in Ferromagnetism, Inorganic chemistry, Molecule, Ground state and Ion. His Single-molecule magnet study incorporates themes from Spin and Lanthanide. His Magnet research is multidisciplinary, incorporating elements of Spintronics, Nanotechnology, Magnetic relaxation, Yttrium and Anisotropy.
His scientific interests lie mostly in Condensed matter physics, Magnetization, Crystallography, Molecule and Magnet. His Condensed matter physics research includes themes of Field, Magnetic anisotropy and Magnetic field. The study incorporates disciplines such as Relaxation, Nuclear magnetic resonance, Hysteresis, Antiferromagnetism and Ground state in addition to Magnetization.
His Crystallography research includes elements of Ion, Ferromagnetism, Stereochemistry and Single-molecule magnet. Wolfgang Wernsdorfer interconnects Dysprosium and Lanthanide in the investigation of issues within Single-molecule magnet. He studied Molecule and Nanotechnology that intersect with Spintronics.
Wolfgang Wernsdorfer mostly deals with Condensed matter physics, Crystallography, Magnetization, Magnet and Quantum tunnelling. His research on Condensed matter physics often connects related topics like Magnetic field. His Crystallography study integrates concerns from other disciplines, such as Molecule, Lanthanide, Hysteresis and Ferromagnetism.
His study of Single-molecule magnet is a part of Magnetization. His Magnet study combines topics from a wide range of disciplines, such as Single ion and Nuclear magnetic resonance. The Quantum tunnelling study combines topics in areas such as Dysprosium and Hyperfine structure, Atomic physics.
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Molecular spintronics using single-molecule magnets.
Lapo Bogani;Wolfgang Wernsdorfer.
Nature Materials (2008)
Quantum Phase Interference and Parity Effects in Magnetic Molecular Clusters
W. Wernsdorfer;R. Sessoli.
Science (1999)
Exchange-biased quantum tunnelling in a supramolecular dimer of single-molecule magnets
Wolfgang Wernsdorfer;Núria Aliaga-Alcalde;David N. Hendrickson;George Christou.
Nature (2002)
Giant single-molecule magnets: a [Mn84] torus and its supramolecular nanotubes.
Anastasios J. Tasiopoulos;Alina Vinslava;Wolfgang Wernsdorfer;Khalil A. Abboud.
Angewandte Chemie (2004)
Dysprosium triangles showing single-molecule magnet behavior of thermally excited spin states
Jinkui Tang;Ian Hewitt;N. T. Madhu;Guillaume Chastanet.
Angewandte Chemie (2006)
Experimental Evidence of the Néel-Brown Model of Magnetization Reversal
W. Wernsdorfer;E. Bonet Orozco;K. Hasselbach;A. Benoit.
Physical Review Letters (1997)
A record anisotropy barrier for a single-molecule magnet.
Constantinos J. Milios;Alina Vinslava;Wolfgang Wernsdorfer;Stephen Moggach.
Journal of the American Chemical Society (2007)
Electronic read-out of a single nuclear spin using a molecular spin transistor
Romain Vincent;Svetlana Klyatskaya;Mario Ruben;Mario Ruben;Wolfgang Wernsdorfer.
Nature (2012)
Supramolecular spin valves
Matias Urdampilleta;Svetlana Klyatskaya;Jean-Pierre Cleuziou;Mario Ruben;Mario Ruben.
Nature Materials (2011)
Carbon nanotube superconducting quantum interference device.
Jean-Pierre Cleuziou;Wolfgang Wernsdorfer;V. Bouchiat;Thierry Ondarçuhu.
Nature Nanotechnology (2006)
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