Chemical tunnel-splitting-engineering in a dysprosium-based molecular nanomagnet
Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the...
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| Vydáno v: | Nature communications Ročník 9; číslo 1; s. 1292 - 9 |
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| Hlavní autoři: | , , , , , , , , , , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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London
Nature Publishing Group UK
29.03.2018
Nature Publishing Group Nature Portfolio |
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| ISSN: | 2041-1723, 2041-1723 |
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| Abstract | Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (
C
4
) to pseudo-linear (
D
4d
) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting.
Suppression of quantum tunneling in molecular magnets is key for their magnetic behaviours to be exploitable. Here, the authors show that tuning the geometry of lanthanide single-ion magnets leads to a suppression of the quantum tunneling, finding a three-fold reduction of the tunnel splitting upon changing the crystal field symmetry. |
|---|---|
| AbstractList | Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin-orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (C
) to pseudo-linear (D
) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear ( C 4 ) to pseudo-linear ( D 4d ) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (C4) to pseudo-linear (D4d) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Suppression of quantum tunneling in molecular magnets is key for their magnetic behaviours to be exploitable. Here, the authors show that tuning the geometry of lanthanide single-ion magnets leads to a suppression of the quantum tunneling, finding a three-fold reduction of the tunnel splitting upon changing the crystal field symmetry. Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin-orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (C4) to pseudo-linear (D4d) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting.Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin-orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (C4) to pseudo-linear (D4d) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear ( C 4 ) to pseudo-linear ( D 4d ) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Suppression of quantum tunneling in molecular magnets is key for their magnetic behaviours to be exploitable. Here, the authors show that tuning the geometry of lanthanide single-ion magnets leads to a suppression of the quantum tunneling, finding a three-fold reduction of the tunnel splitting upon changing the crystal field symmetry. Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable applications in spin-based devices. For single-ion lanthanide systems, with strong spin–orbit coupling, the potential applications are linked to the energetic structure of the crystal field levels and quantum tunneling within the ground state. Structural engineering of the timescale of these tunneling events via appropriate design of crystal fields represents a fundamental challenge for the synthetic chemist, since tunnel splittings are expected to be suppressed by crystal field environments with sufficiently high-order symmetry. Here, we report the long missing study of the effect of a non-linear (C4) to pseudo-linear (D4d) change in crystal field symmetry in an otherwise chemically unaltered dysprosium complex. From a purely experimental study of crystal field levels and electronic spin dynamics at milliKelvin temperatures, we demonstrate the ensuing threefold reduction of the tunnel splitting. Suppression of quantum tunneling in molecular magnets is key for their magnetic behaviours to be exploitable. Here, the authors show that tuning the geometry of lanthanide single-ion magnets leads to a suppression of the quantum tunneling, finding a three-fold reduction of the tunnel splitting upon changing the crystal field symmetry. |
| ArticleNumber | 1292 |
| Author | Sørensen, Mikkel A. Doerrer, Linda H. Retuerto, Maria Bendix, Jesper Jeong, Minki Simeoni, Giovanna G. Bartolomé, Elena Rønnow, Henrik M. Rols, Stéphane van Slageren, Joris Bartolomé, Juan Zivkovic, Ivica Hansen, Ursula B. Lefmann, Kim Weihe, Høgni Perfetti, Mauro Piligkos, Stergios Pedersen, Kasper S. Arauzo, Ana Mutka, Hannu |
| Author_xml | – sequence: 1 givenname: Mikkel A. orcidid: 0000-0001-5405-9022 surname: Sørensen fullname: Sørensen, Mikkel A. email: mikkel.agerbaek@chem.ku.dk organization: Department of Chemistry, University of Copenhagen, Institut für Physikalische Chemie, Universität Stuttgart – sequence: 2 givenname: Ursula B. orcidid: 0000-0001-5270-4091 surname: Hansen fullname: Hansen, Ursula B. organization: Niels Bohr Institute, University of Copenhagen, Laboratory for Quantum Magnetism, École Polytechnique Fédérale Lausanne – sequence: 3 givenname: Mauro orcidid: 0000-0001-5649-0449 surname: Perfetti fullname: Perfetti, Mauro organization: Institut für Physikalische Chemie, Universität Stuttgart, Department of Chemistry, University of Copenhagen – sequence: 4 givenname: Kasper S. surname: Pedersen fullname: Pedersen, Kasper S. organization: Department of Chemistry, University of Copenhagen, Department of Chemistry, Technical University of Denmark – sequence: 5 givenname: Elena surname: Bartolomé fullname: Bartolomé, Elena organization: Escola Universitària Salesiana de Sarrià (EUSS) – sequence: 6 givenname: Giovanna G. orcidid: 0000-0003-3483-6554 surname: Simeoni fullname: Simeoni, Giovanna G. organization: Forschungsneutronenquelle Heinz Maier-Leibnitz FRM II, Technische Universität München, Institute of Aerospace Thermodynamics, Universität Stuttgart – sequence: 7 givenname: Hannu surname: Mutka fullname: Mutka, Hannu organization: Institute Laue–Langevin – sequence: 8 givenname: Stéphane surname: Rols fullname: Rols, Stéphane organization: Institute Laue–Langevin – sequence: 9 givenname: Minki orcidid: 0000-0003-0669-1386 surname: Jeong fullname: Jeong, Minki organization: Laboratory for Quantum Magnetism, École Polytechnique Fédérale Lausanne – sequence: 10 givenname: Ivica orcidid: 0000-0003-0366-8199 surname: Zivkovic fullname: Zivkovic, Ivica organization: Laboratory for Quantum Magnetism, École Polytechnique Fédérale Lausanne – sequence: 11 givenname: Maria surname: Retuerto fullname: Retuerto, Maria organization: Niels Bohr Institute, University of Copenhagen, Instituto de Catálisis y Petroleoquímica – CSIC – sequence: 12 givenname: Ana orcidid: 0000-0002-5999-341X surname: Arauzo fullname: Arauzo, Ana organization: University of Zaragoza, CSIC-Instituto de Cìencia de Materiales de Aragón (ICMA) – sequence: 13 givenname: Juan surname: Bartolomé fullname: Bartolomé, Juan organization: University of Zaragoza, CSIC-Instituto de Cìencia de Materiales de Aragón (ICMA) – sequence: 14 givenname: Stergios surname: Piligkos fullname: Piligkos, Stergios organization: Department of Chemistry, University of Copenhagen – sequence: 15 givenname: Høgni surname: Weihe fullname: Weihe, Høgni organization: Department of Chemistry, University of Copenhagen – sequence: 16 givenname: Linda H. surname: Doerrer fullname: Doerrer, Linda H. organization: Department of Chemistry, Boston University – sequence: 17 givenname: Joris orcidid: 0000-0002-0855-8960 surname: van Slageren fullname: van Slageren, Joris organization: Institut für Physikalische Chemie, Universität Stuttgart – sequence: 18 givenname: Henrik M. orcidid: 0000-0002-8832-8865 surname: Rønnow fullname: Rønnow, Henrik M. organization: Laboratory for Quantum Magnetism, École Polytechnique Fédérale Lausanne – sequence: 19 givenname: Kim surname: Lefmann fullname: Lefmann, Kim organization: Niels Bohr Institute, University of Copenhagen – sequence: 20 givenname: Jesper orcidid: 0000-0003-1255-2868 surname: Bendix fullname: Bendix, Jesper email: bendix@kiku.dk organization: Department of Chemistry, University of Copenhagen |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29599433$$D View this record in MEDLINE/PubMed |
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| Publisher | Nature Publishing Group UK Nature Publishing Group Nature Portfolio |
| Publisher_xml | – name: Nature Publishing Group UK – name: Nature Publishing Group – name: Nature Portfolio |
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| Snippet | Total control over the electronic spin relaxation in molecular nanomagnets is the ultimate goal in the design of new molecules with evermore realizable... Suppression of quantum tunneling in molecular magnets is key for their magnetic behaviours to be exploitable. Here, the authors show that tuning the geometry... |
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| SubjectTerms | 639/638/263 639/638/298/920 639/638/911 Chemistry Coupling (molecular) Crystal structure Design engineering Dysprosium Electron spin Engineering Humanities and Social Sciences Information storage multidisciplinary Quantum tunnelling Science Science (multidisciplinary) Spin dynamics Splitting Structural engineering Symmetry |
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| Title | Chemical tunnel-splitting-engineering in a dysprosium-based molecular nanomagnet |
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