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Fluorek srebra(II) (Polish Wikipedia)

Analysis of information sources in references of the Wikipedia article "Fluorek srebra(II)" in Polish language version.

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33doi.org
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  • Ciping Shen i inni, Disproportionation of Ag(II) to Ag(I) and Ag(III) in Fluoride Systems and Syntheses and Structures of (AgF+)2AgF4MF6 Salts (M = As, Sb, Pt, Au, Ru), „Inorganic Chemistry”, 38 (20), 1999, s. 4570–4577, DOI10.1021/ic9905603 (ang.).
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  • Przemysław Malinowski, Zoran Mazej, Wojciech Grochala, Probing the Reactivity of the Potent AgF2 Oxidizer. Part 2: Inorganic Compounds, „Zeitschrift für anorganische und allgemeine Chemie”, 634 (14), 2008, s. 2608–2616, DOI10.1002/zaac.200800301 (ang.).
  • W. Struve i inni, Fluorination of petroleum oils in liquid phase with silver difluoride, „Industrial & Engineering Chemistry”, 39 (3), 1947, s. 352–354, DOI10.1021/ie50447a648 (ang.).
  • A.A. Goryunkov i inni, Reaction of silver(I) and (II) fluorides with C60: thermodynamic control over fluorination level, „Journal of Fluorine Chemistry”, 112 (2), 2001, s. 191–196, DOI10.1016/S0022-1139(01)00521-8 (ang.).
  • Wojciech Wegner i inni, Gigantic work function in layered AgF2, „Physical Chemistry Chemical Physics”, 22 (38), 2020, s. 21809–21815, DOI10.1039/D0CP03706K (ang.).
  • Homer F. Priest, Carl F. Swinehert, Anhydrous Metal Fluorides, [w:] L.F. Audrieth (red.), Inorganic syntheses, t. 3, New York 1950, s. 171–183, DOI10.1002/9780470132340.ch47, ISBN 978-0-470-13234-0, OCLC 86223230 (ang.).
  • Piotr Połczyński i inni, Electrosynthesis of Unique AgII Fluoride Quantum Antiferromagnets in Anhydrous HF, „European Journal of Inorganic Chemistry”, 2020 (33), 2020, s. 3151–3157, DOI10.1002/ejic.202000363 (ang.).
  • Dale L. Perry, Handbook of Inorganic Compounds, 19 kwietnia 2016, s. 352, DOI10.1201/b10908 [dostęp 2025-04-22] (ang.).
  • Z. Mazej, D. Kurzydłowski, W. Grochala, Unique Silver(II) Fluorides, [w:] Alain Tressaud, Kenneth Reinhard Poeppelmeier (red.), Photonic and Electronic Properties of Fluoride Materials, Amsterdam: Elsevier, 2016, s. 231–260, DOI10.1016/b978-0-12-801639-8.00012-x, ISBN 978-0-12-801639-8, OCLC 945095082 (ang.).
  • Wojciech Grochala, Zoran Mazej, Chemistry of silver(II): a cornucopia of peculiarities, „Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences”, 373 (2037), 2015, s. 20140179, DOI10.1098/rsta.2014.0179 (ang.).
  • P. Fischer, D. Schwarzenbach, H.M. Rietveld, Crystal and magnetic structure of silver difluoride, „Journal of Physics and Chemistry of Solids”, 32 (3), 1971, s. 543–550, DOI10.1016/0022-3697(71)90003-5 (ang.).
  • Jakub Gawraczyński i inni, Silver route to cuprate analogs, „Proceedings of the National Academy of Sciences of the United States of America”, 116 (5), 2019, s. 1495–1500, DOI10.1073/pnas.1812857116, PMID30651308, PMCIDPMC6358696 (ang.).
  • Dominik Kurzydłowski i inni, Dramatic enhancement of spin–spin coupling and quenching of magnetic dimensionality in compressed silver difluoride, „Chemical Communications”, 54 (73), 2018, s. 10252–10255, DOI10.1039/C8CC05002C (ang.).
  • Wojciech Grochala i inni, On the Covalency of Silver-Fluorine Bonds in Compounds of Silver(I), Silver(II) and Silver(III), „ChemPhysChem”, 4 (9), 2003, s. 997–1001, DOI10.1002/cphc.200300777 (ang.).
  • Riccardo Piombo i inni, Strength of correlations in a silver-based cuprate analog, „Physical Review B”, 106 (3), 2022, s. 035142, DOI10.1103/PhysRevB.106.035142 (ang.).
  • Nimrod Bachar i inni, Charge-Transfer and dd excitations in AgF2, „Physical Review Research”, 4 (2), 2022, art. nr 023108, DOI10.1103/PhysRevResearch.4.023108 (ang.).
  • A. Grzelak i inni, Metal fluoride nanotubes featuring square-planar building blocks in a high-pressure polymorph of AgF2, „Dalton Transactions”, 46 (43), 2017, s. 14742–14745, DOI10.1039/C7DT03178E (ang.).
  • Adam Grzelak i inni, Epitaxial engineering of flat silver fluoride cuprate analogs, „Physical Review Materials”, 4 (8), 2020, art. nr 084405, DOI10.1103/PhysRevMaterials.4.084405 (ang.).
  • A. Schilling i inni, Superconductivity above 130 K in the Hg–Ba–Ca–Cu–O system, „Nature”, 363 (6424), 1993, s. 56–58, DOI10.1038/363056a0 (ang.).
  • Adam Grzelak, José Lorenzana, Wojciech Grochala, Separation-Controlled Redox Reactions, „Angewandte Chemie International Edition”, 60 (25), 2021, s. 13892–13895, DOI10.1002/anie.202103886 (ang.).
  • Daniel Jezierski i inni, Charge doping to flat AgF2 monolayers in a chemical capacitor setup, „Physical Chemistry Chemical Physics”, 2022, DOI10.1039/D2CP00179A (ang.).
  • John T. Wolan, Gar B. Hoflund, Surface characterization study of AgF and AgF2 powders using XPS and ISS, „Applied Surface Science”, 125 (3–4), 1998, s. 251–258, DOI10.1016/S0169-4332(97)00498-4 (ang.).
  • Hans-Christian Müller-Rösing, Axel Schulz, Magdolna Hargittai, Structure and bonding in silver halides. A quantum chemical study of the monomers: Ag2X, AgX, AgX2, and AgX3 (X = F, Cl, Br, I), „Journal of the American Chemical Society”, 127 (22), 2005, s. 8133–8145, DOI10.1021/ja051442j, PMID15926841 (ang.).
  • Hans-Christian Müller-Rösing, Axel Schulz, Magdolna Hargittai, Structure and Bonding in Silver Halides. A Quantum Chemical Study of the Monomers: Ag2X, AgX, AgX2, and AgX3 (X = F, Cl, Br, I), „Journal of the American Chemical Society”, 127 (22), 2005, s. 8133–8145, DOI10.1021/ja051442j (ang.).
  • P. Fischer, G. Roult, D. Schwarzenbach, Crystal and magnetic structure of silver difluoride-II. Weak 4d-ferromagnetism of AgF2, „Journal of Physics and Chemistry of Solids”, 32 (7), 1971, s. 1641–1647, DOI10.1016/S0022-3697(71)80057-4 (ang.).
  • Douglas A. Rausch, Ralph A. Davis, D. Wendell Osborne, The Addition of Fluorine to Halogenated Olefins by Means of Metal Fluorides, „Journal of Organic Chemistry”, 28 (2), 1963, s. 494–497, DOI10.1021/jo01037a055 (ang.).
  • Arnold Zweig, Robert G. Fischer, John E. Lancaster, New method for selective monofluorination of aromatics using silver difluoride, „Journal of Organic Chemistry”, 45 (18), 1980, s. 3597–3603, DOI10.1021/jo01306a011 (ang.).
  • J. Levec, J. Slivnik, B. Žemva, On the reaction between xenon and fluorine, „Journal of Inorganic and Nuclear Chemistry”, 36 (5), 1974, s. 997–1001, DOI10.1016/0022-1902(74)80203-4 (ang.).
  • Patrick S. Fier, John F. Hartwig, Selective C-H fluorination of pyridines and diazines inspired by a classic amination reaction, „Science”, 342 (6161), 2013, s. 956–960, DOI10.1126/science.1243759, PMID24264986 (ang.).
  • Richard P. Pohanish, Wiley Guide to Chemical Incompatibilities, Stanley A. Greene (red.), wyd. 3, Hoboken: John Wiley & Sons, 2009, s. 93, DOI10.1002/9780470523315.ch1, ISBN 978-1-61583-346-7, OCLC 642892178 (ang.).

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