A stable compound of helium and sodium at high pressure
Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, usi...
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| Veröffentlicht in: | Nature chemistry Jg. 9; H. 5; S. 440 - 445 |
|---|---|
| Hauptverfasser: | , , , , , , , , , , , , , , , , |
| Format: | Journal Article |
| Sprache: | Englisch |
| Veröffentlicht: |
London
Nature Publishing Group UK
01.05.2017
Nature Publishing Group |
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| ISSN: | 1755-4330, 1755-4349, 1755-4349 |
| Online-Zugang: | Volltext |
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| Abstract | Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the
ab initio
evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na
2
He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na
8
cubes. We also predict the existence of Na
2
HeO with a similar structure at pressures above 15 GPa.
Helium is generally recognized as being chemically inert. A thermodynamically stable compound of helium and sodium, Na
2
He, has been predicted computationally and then synthesized at high pressure. It exists as an electride, where strongly localized electrons serve as anions located at the centre of Na
8
cubes. |
|---|---|
| AbstractList | Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na
He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na
cubes. We also predict the existence of Na
HeO with a similar structure at pressures above 15 GPa. Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na2 He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na8 cubes. We also predict the existence of Na2 HeO with a similar structure at pressures above 15 GPa. Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na2He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na8 cubes. We also predict the existence of Na2HeO with a similar structure at pressures above 15 GPa. Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na2He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na8 cubes. We also predict the existence of Na2HeO with a similar structure at pressures above 15 GPa.Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na2He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na8 cubes. We also predict the existence of Na2HeO with a similar structure at pressures above 15 GPa. Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na 2 He, which has a fluorite-type structure and is stable at pressures >113 GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na 8 cubes. We also predict the existence of Na 2 HeO with a similar structure at pressures above 15 GPa. Helium is generally recognized as being chemically inert. A thermodynamically stable compound of helium and sodium, Na 2 He, has been predicted computationally and then synthesized at high pressure. It exists as an electride, where strongly localized electrons serve as anions located at the centre of Na 8 cubes. Helium is generally understood to be chemically inert and this is due to its extremely stable closed-shell electronic configuration, zero electron affinity and an unsurpassed ionization potential. It is not known to form thermodynamically stable compounds, except a few inclusion compounds. Here, using the ab initio evolutionary algorithm USPEX and subsequent high-pressure synthesis in a diamond anvil cell, we report the discovery of a thermodynamically stable compound of helium and sodium, Na sub(2)He, which has a fluorite-type structure and is stable at pressures >113GPa. We show that the presence of He atoms causes strong electron localization and makes this material insulating. This phase is an electride, with electron pairs localized in interstices, forming eight-centre two-electron bonds within empty Na sub(8) cubes. We also predict the existence of Na sub(2)HeO with a similar structure at pressures above 15GPa. |
| Author | Zhou, Xiang-Feng Dong, Xiao Goncharov, Alexander F. Gatti, Carlo Popov, Ivan A. Wang, Hui-Tian Lobanov, Sergey Stavrou, Elissaios Saleh, Gabriele Boldyrev, Alexander I. Oganov, Artem R. Prakapenka, Vitali B. Deringer, Volker L. Dronskowski, Richard Konôpková, Zuzana Zhu, Qiang Qian, Guang-Rui |
| Author_xml | – sequence: 1 givenname: Xiao surname: Dong fullname: Dong, Xiao organization: School of Physics and MOE Key Laboratory of Weak-Light Nonlinear Photonics, Nankai University, Center for High Pressure Science and Technology Advanced Research, Department of Geosciences, Stony Brook University, Stony Brook – sequence: 2 givenname: Artem R. orcidid: 0000-0001-7082-9728 surname: Oganov fullname: Oganov, Artem R. email: artem.oganov@sunysb.edu organization: Department of Geosciences, Stony Brook University, Stony Brook, Skolkovo Institute of Science and Technology, 3 Nobel Street, Moscow Institute of Physics and Technology, 9 Institutskiy Lane, Dolgoprudny city, International Centre for Materials Discovery, Northwestern Polytechnical University – sequence: 3 givenname: Alexander F. surname: Goncharov fullname: Goncharov, Alexander F. organization: Geophysical Laboratory, Carnegie Institution of Washington, 5251 Broad Branch Road, Key Laboratory of Materials Physics and Center for Energy Matter in Extreme Environments, Institute of Solid State Physics, Chinese Academy of Sciences, 350 Shushanghu Road – sequence: 4 givenname: Elissaios surname: Stavrou fullname: Stavrou, Elissaios organization: Geophysical Laboratory, Carnegie Institution of Washington, 5251 Broad Branch Road, Lawrence Livermore National Laboratory, Physical and Life Sciences Directorate, PO Box 808 L-350 – sequence: 5 givenname: Sergey surname: Lobanov fullname: Lobanov, Sergey organization: Geophysical Laboratory, Carnegie Institution of Washington, 5251 Broad Branch Road, Sobolev Institute of Geology and Mineralogy, Siberian Branch Russian Academy of Sciences, 3 Pr. Ac. Koptyga – sequence: 6 givenname: Gabriele surname: Saleh fullname: Saleh, Gabriele organization: Moscow Institute of Physics and Technology, 9 Institutskiy Lane, Dolgoprudny city – sequence: 7 givenname: Guang-Rui surname: Qian fullname: Qian, Guang-Rui organization: Department of Geosciences, Stony Brook University, Stony Brook – sequence: 8 givenname: Qiang surname: Zhu fullname: Zhu, Qiang organization: Department of Geosciences, Stony Brook University, Stony Brook – sequence: 9 givenname: Carlo surname: Gatti fullname: Gatti, Carlo organization: Istituto di Scienze e Tecnologie Molecolari del CNR (CNR-ISTM) e Dipartimento di Chimica, Universita’ di Milano, via Golgi 19 – sequence: 10 givenname: Volker L. surname: Deringer fullname: Deringer, Volker L. organization: Chair of Solid-State and Quantum Chemistry, RWTH Aachen University – sequence: 11 givenname: Richard surname: Dronskowski fullname: Dronskowski, Richard organization: Chair of Solid-State and Quantum Chemistry, RWTH Aachen University – sequence: 12 givenname: Xiang-Feng orcidid: 0000-0001-8651-9273 surname: Zhou fullname: Zhou, Xiang-Feng email: xfzhou@nankai.edu.cn organization: School of Physics and MOE Key Laboratory of Weak-Light Nonlinear Photonics, Nankai University, Department of Geosciences, Stony Brook University, Stony Brook – sequence: 13 givenname: Vitali B. surname: Prakapenka fullname: Prakapenka, Vitali B. organization: Center for Advanced Radiation Sources, University of Chicago – sequence: 14 givenname: Zuzana surname: Konôpková fullname: Konôpková, Zuzana organization: Photon Science DESY – sequence: 15 givenname: Ivan A. orcidid: 0000-0003-2663-3685 surname: Popov fullname: Popov, Ivan A. organization: Department of Chemistry and Biochemistry, Utah State University, Chemistry Department, Faculty of Science, RUDN University – sequence: 16 givenname: Alexander I. surname: Boldyrev fullname: Boldyrev, Alexander I. organization: Department of Chemistry and Biochemistry, Utah State University – sequence: 17 givenname: Hui-Tian surname: Wang fullname: Wang, Hui-Tian email: htwang@nankai.edu.cn organization: School of Physics and MOE Key Laboratory of Weak-Light Nonlinear Photonics, Nankai University, Collaborative Innovation Center of Advanced Microstructures, Nanjing University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28430195$$D View this record in MEDLINE/PubMed https://www.osti.gov/biblio/1355028$$D View this record in Osti.gov |
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| ContentType | Journal Article |
| Copyright | Springer Nature Limited 2017 Copyright Nature Publishing Group May 2017 |
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| CorporateAuthor | Argonne National Laboratory (ANL), Argonne, IL (United States). Advanced Photon Source (APS) |
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| DOI | 10.1038/nchem.2716 |
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| Title | A stable compound of helium and sodium at high pressure |
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