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Supporting information for: "What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?"
(American Chemical Society (ACS), 2019)
Supporting information for X-ray crystallography; Additional experimental details for the synthesis of 1 and 3; Additional computational results for mononuclear structures; Additional computational results for dimer structures.
CCDC 1917722: Experimental Crystal Structure Determination. Crystalographic data for "What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?"
(The Cambridge Crystallographic Data Centre (CCDC), 2019)
HOSCOK : (N-[1-(pyridin-2-yl)ethylidene]-2-(trimethylazaniumyl)ethanehydrazonate)-nitrato-chloro-copper(ii) Space Group: P 21/c (14), Cell: a 10.1820(6)Å b 8.6362(6)Å c 18.7170(11)Å, α 90° β 95.178(5)° γ 90°
The Irony of Manganocene: An Interplay between the Jahn-Teller Effect and Close-Lying Electronic and Spin States
(American Chemical Society (ACS), 2019)
Although the unusual structural, magnetic,electronic, and spin characteristics of manganocene hasintrigued scientists for decades, a unified explanation andrationalization of its properties has not yet been provided.Results ...
The Irony of Manganocene: An Interplay between the Jahn-Teller Effect and Close-Lying Electronic and Spin States
(American Chemical Society (ACS), 2019)
Although the unusual structural, magnetic,
electronic, and spin characteristics of manganocene has
intrigued scientists for decades, a unified explanation and
rationalization of its properties has not yet been ...
Supporting Information for: "The Irony of Manganocene: An Interplay between the Jahn-Teller Effect and Close-Lying Electronic and Spin States"
(American Chemical Society (ACS), 2019)
Extended computational details and theoretical background, EDA analysis, IDP analysis, additional references and figures. Additional figures: Model for the manganocene dimer that was utilized to extract coupling constant, ...
What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?
(American Chemical Society (ACS), 2019)
In solid-state coordination chemistry, the coordination number of a metal center is not always unambiguously determined, as sometimes from the geometrical parameters it is not clear if ligands are directly bound to the ...
What is the nature of binding of BF4¯, NO3¯ and ClO4¯ to Cu(II) complexes with Girard's T hydrazine? When can binuclear complexes be formed? / Kakva je priroda vezivanja BF4-, NO3- i ClO4- za komplekse Cu(II) sa Žirarovim T hidrazidom? Kada mogu nastati binuklearni kompleksi?
(Serbian Chemical Society, Belgrade / Srpsko hemijsko društvo, Beograd, 2019)
Four complexes, [CuLCl]BF4, [CuLCl]NO3, [Cu2L2Cl2](BF4)2 and [CuLCl]ClO4 having the same [CuLCl]+ moiety, (L=(E)-N,N,N-trimethyl-2-oxo-2-(2-(1-(pyridin-2-yl)ethylidene) hydrazi-nyl)ethan-1-amin), were characterized by ...
What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?
(American Chemical Society (ACS), 2019)
In solid-state coordination chemistry, the coordination number of a metal center is not always unambiguously determined, as sometimes from the geometrical parameters it is not clear if ligands are directly bound to the ...
CCDC 1917723: Experimental Crystal Structure Determination. Crystalographic data for "What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?"
(The Cambridge Crystallographic Data Centre (CCDC), 2019)
HOSCUQ : bis(μ-chloro)-bis(N-[1-(pyridin-2-yl)ethylidene]-2-(trimethylazaniumyl)ethanehydrazonate)-di-copper(iii) bis(tetrafluoroborate) Space Group: P 21/n (14), Cell: a 7.2915(3)Å b 28.1816(13)Å c 8.9402(5)Å, α 90° β ...
CCDC 1917721: Experimental Crystal Structure Determination. Crystalographic data for "What Is the Nature of Interactions of BF4–, NO3–, and ClO4– to Cu(II) Complexes with Girard’s T Hydrazine? When Can Binuclear Complexes Be Formed?"
(The Cambridge Crystallographic Data Centre (CCDC), 2019)
HOSCIE : (N-[1-(pyridin-2-yl)ethylidene]-2-(trimethylazaniumyl)ethanehydrazonate)-chloro-tetrafluoroborato-copper(ii) Space Group: P 21/c (14), Cell: a 9.9440(4)Å b 9.3620(4)Å c 18.5299(7)Å, α 90° β 95.626(3)° γ 90°