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Mechanochemical synthesis and magnetic properties of the mixed-valent binary silver(I,II) fluorides, Ag$^I{}_2$Ag$^{II}$F$_4$ and Ag$^I$Ag$^{II}$F$_3$
ID Belak Vivod, Matic (Author), ID Jagličić, Zvonko (Author), ID King, Graham (Author), ID Hansen, Thomas C. (Author), ID Lozinšek, Matic (Author), ID Dragomir, Mirela (Author)

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Abstract
Fluoridoargentates(II) represent a fascinating class of silver(II) compounds with structural and magnetic similarities to cuprate superconductors. However, their synthesis is challenging, leaving their properties largely underexplored and hindering the discovery of new phases. This study introduces mechanochemistry as a novel approach for the synthesis of fluoridoargentates(II), avoiding the use of anhydrous HF or elemental fluorine and employing readily available equipment. Notably, ball milling of commercially available precursors successfully produced the long-sought-after first two examples of binary mixed-valent silver(I,II) phases, Ag$^I$$_2$Ag$^{II}$F$_4$ (Ag$_3$F$_4$) and Ag$^I$Ag$^{II}$F$_3$ (Ag$_2$F$_3$). While the Ag$^I$$_2$Ag$^{II}$F$_4$ phase was obtained at room temperature, the Ag$^I$Ag$^{II}$F$_3$ phase is metastable and required milling under cryogenic conditions. Characterization by synchrotron powder X-ray and neutron diffraction revealed that Ag$^I$$_2$Ag$^{II}$F$_4$ crystallizes in the P2$_1$/c space group and is isostructural to β-K$_2$AgF$_4$. In this crystal structure, [Ag$^{II}$F$_2$F$_{4/2}$]$^{2−}$ distorted octahedral units with 4 + 2 coordination, extend parallel to a-crystallographic axis giving a quasi-one-dimensional canted antiferromagnetic character, as shown by magnetic susceptibility. The triclinic perovskite Ag$^I$Ag$^{II}$F$_3$ phase adopts the P$\overline{1}$ space group, is isostructural to AgCuF$_3$ and also shows features of a one-dimensional antiferromagnet. This mechanochemical approach, also successfully applied to synthesize β-K$_2$AgF$_4$, is expected to expand the field of silver(II) chemistry, accelerating the search for silver analogs to cuprate superconductors and potentially extending to other cations in unusual oxidation states.

Language:English
Keywords:fluoridoargentates(II), organic reactions, anions, chemical structure, diffraction, magnetic properties
Work type:Article
Typology:1.01 - Original Scientific Article
Organization:FGG - Faculty of Civil and Geodetic Engineering
Publication status:Published
Publication version:Version of Record
Year:2024
Number of pages:Str. 30510–30517
Numbering:Vol. 146, iss. 44
PID:20.500.12556/RUL-164686 This link opens in a new window
UDC:54
ISSN on article:1520-5126
DOI:10.1021/jacs.4c11772 This link opens in a new window
COBISS.SI-ID:213097987 This link opens in a new window
Publication date in RUL:07.11.2024
Views:113
Downloads:35
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Record is a part of a journal

Title:Journal of the American Chemical Society
Shortened title:J. Am. Chem. Soc.
Publisher:American Chemical Society
ISSN:1520-5126
COBISS.SI-ID:512805913 This link opens in a new window

Licences

License:CC BY 4.0, Creative Commons Attribution 4.0 International
Link:http://creativecommons.org/licenses/by/4.0/
Description:This is the standard Creative Commons license that gives others maximum freedom to do what they want with the work as long as they credit the author.

Secondary language

Language:Slovenian
Keywords:organske reakcije, srebrove spojine, uklon, kemična sestava, anioni, magnetne lastnosti, kemijske reakcije

Projects

Funder:ARIS - Slovenian Research and Innovation Agency
Project number:J2-2496
Name:Iskanje visoko temperaturne superprevodnosti in eksotičnega magnetizma v fluorido argentatih(II)

Funder:ARIS - Slovenian Research and Innovation Agency
Project number:P2-0105
Name:Multifunkcijski materiali in naprave: od kvantnega do makro nivoja

Funder:ARIS - Slovenian Research and Innovation Agency
Project number:P2-0348
Name:Nove slikovnoanalitske metode

Funder:EC - European Commission
Funding programme:H2020
Project number:101031415
Name:Towards Quantum States of Matter via Chemistry under Extreme Conditions
Acronym:QMatCh

Funder:EC - European Commission
Funding programme:H2020
Project number:950625
Name:Challenging the Oxidation-State Limitations of the Periodic Table via High-Pressure Fluorine Chemistry
Acronym:HiPeR-F

Funder:Other - Other funder or multiple funders
Funding programme:Jožef Stefan Institute Director’s Fund

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