A Novel One-Dimensional Copper Mellitate Complex Featured by {Cu(H2O)2(urea)[C6(COO)4(COOH)2]}n2n- Polyanions

Blue monoclinic single crystals of the novel one‐dimensional [H3N‐(CH2)6‐NH3][Cu(H2O)2(urea)(μ2‐C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in aqueous solution at room temperature in the presence of 1,6‐diaminohexane and urea [space group P21/n (no. 14) with a = 958.48(9), b = 1465.74(1...

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Vydané v:Zeitschrift für anorganische und allgemeine Chemie (1950) Ročník 641; číslo 11; s. 1886 - 1891
Hlavní autori: Köferstein, Roberto, Robl, Christian
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Weinheim WILEY-VCH Verlag 01.09.2015
WILEY‐VCH Verlag
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Predmet:
Benzenehexacarboxylic acid
Chemical Sciences
Coordination chemistry
Copper
Diaminohexane
Inorganic chemistry
Polyanions
Urea
Urea
Infrared spectroscopy
Benzene carboxylate
Coordination polymer
Magnetism
Diaminohexane
curie-weiss law
mellitate
Copper complexes
ISSN:0044-2313, 1521-3749
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Abstract Blue monoclinic single crystals of the novel one‐dimensional [H3N‐(CH2)6‐NH3][Cu(H2O)2(urea)(μ2‐C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in aqueous solution at room temperature in the presence of 1,6‐diaminohexane and urea [space group P21/n (no. 14) with a = 958.48(9), b = 1465.74(11), c = 1821.14(12) pm, β = 97.655(8)°]. The Cu2+ cation is coordinated in a square pyramidal manner by two oxygen atoms stemming from the dihydrogen mellitate tetraanion, one oxygen atom from the urea molecule, and two water molecules. The Cu–O distances are in the range of 193.3(2) and 229.4(2) pm. The connection between Cu2+ and [C6(COO)4(COOH)2]4– yields infinite chain‐like polyanions parallel to [1$\bar{}$01] with a composition of {Cu(H2O)2(urea)[C6(COO)4(COOH)2]}n2n–. The dihydrogen mellitate tetraanion adopts a μ2 coordination mode. The [(H3N–(CH2)6–NH3)]2+ cations are accommodated between the chains as counter cations. The hexane‐1,6‐diammonium cations adopt a partial synclinal conformation. The chains are connected by strong and weak hydrogen bonds. Magnetic measurements reveal a paramagnetic Curie‐Weiss behavior and a magnetic moment of 1.93 μB per Cu2+. Thermoanalytical investigations in air show that the complex is stable up to 135 °C, and the following decomposition processes yield CuO.
AbstractList Blue monoclinic single crystals of the novel one-dimensional [H 3 N-(CH 2) 6-NH 3 ][Cu(H 2 O) 2 (urea)(µ 2-C 6 (COO) 4 (COOH) 2)]*H 2 O coordination polymer have been prepared in aqueous solution at room temperature in the presence of 1,6-diaminohexane and urea. Space group P2 1 /n (no. 14) with a = 958.48(9), b = 1465.74(11), c = 1821.14(12) pm, beta = 97.655(8)°. The Cu 2+ cation is coordinated in a square pyramidal manner by two oxygen atoms stemming from the dihydrogen mellitate tetraanion, one oxygen atom from the urea molecule, and two water molecules. The Cu−O distances are between 193.3(2) and 229.4(2) pm. The connection between Cu 2+ and [C 6 (COO) 4 (COOH) 2 ] 4- yields infinite chain-like polyanions parallel to [-1 ̅01] with a composition of {Cu(H 2 O) 2 (urea)[C 6 (COO) 4 (COOH) 2 ]} n 2n-. The dihydrogen mellitate tetraanion adopts a µ 2 coordination mode. The [(H 3 N-(CH 2) 6-NH 3)] 2+ cations are accommodated between the chains as counter cations. The hexane-1,6-diammonium cations adopt a partial synclinal conformation. The chains are connected by strong and weak hydrogen bonds. Magnetic measurements reveal a paramagnetic Curie-Weiss behaviour and a magnetic moment of 1.93 µ B per Cu 2+. Thermoanalytical investigations in air show that the complex is stable up to 135 °C. Following decomposition processes yielding CuO.
Blue monoclinic single crystals of the novel one‐dimensional [H3N‐(CH2)6‐NH3][Cu(H2O)2(urea)(μ2‐C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in aqueous solution at room temperature in the presence of 1,6‐diaminohexane and urea [space group P21/n (no. 14) with a = 958.48(9), b = 1465.74(11), c = 1821.14(12) pm, β = 97.655(8)°]. The Cu2+ cation is coordinated in a square pyramidal manner by two oxygen atoms stemming from the dihydrogen mellitate tetraanion, one oxygen atom from the urea molecule, and two water molecules. The Cu–O distances are in the range of 193.3(2) and 229.4(2) pm. The connection between Cu2+ and [C6(COO)4(COOH)2]4– yields infinite chain‐like polyanions parallel to [1$\bar{}$01] with a composition of {Cu(H2O)2(urea)[C6(COO)4(COOH)2]}n2n–. The dihydrogen mellitate tetraanion adopts a μ2 coordination mode. The [(H3N–(CH2)6–NH3)]2+ cations are accommodated between the chains as counter cations. The hexane‐1,6‐diammonium cations adopt a partial synclinal conformation. The chains are connected by strong and weak hydrogen bonds. Magnetic measurements reveal a paramagnetic Curie‐Weiss behavior and a magnetic moment of 1.93 μB per Cu2+. Thermoanalytical investigations in air show that the complex is stable up to 135 °C, and the following decomposition processes yield CuO.
Blue monoclinic single crystals of the novel one-dimensional [H3N-(CH2)6-NH3][Cu(H2O)2(urea)(µ2-C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in aqueous solution at room temperature in the presence of 1,6-diaminohexane and urea [space group P21/n (no. 14) with a = 958.48(9), b = 1465.74(11), c = 1821.14(12) pm, [beta] = 97.655(8)°]. The Cu2+ cation is coordinated in a square pyramidal manner by two oxygen atoms stemming from the dihydrogen mellitate tetraanion, one oxygen atom from the urea molecule, and two water molecules. The Cu-O distances are in the range of 193.3(2) and 229.4(2) pm. The connection between Cu2+ and [C6(COO)4(COOH)2]4- yields infinite chain-like polyanions parallel to [1$\bar{}$01] with a composition of {Cu(H2O)2(urea)[C6(COO)4(COOH)2]}n2n-. The dihydrogen mellitate tetraanion adopts a µ2 coordination mode. The [(H3N-(CH2)6-NH3)]2+ cations are accommodated between the chains as counter cations. The hexane-1,6-diammonium cations adopt a partial synclinal conformation. The chains are connected by strong and weak hydrogen bonds. Magnetic measurements reveal a paramagnetic Curie-Weiss behavior and a magnetic moment of 1.93 µB per Cu2+. Thermoanalytical investigations in air show that the complex is stable up to 135 °C, and the following decomposition processes yield CuO.
Author Robl, Christian
Köferstein, Roberto
Author_xml – sequence: 1
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  givenname: Christian
  surname: Robl
  fullname: Robl, Christian
  email: crr@uni-jena.de
  organization: Institute of Inorganic and Analytical Chemistry, Friedrich-Schiller-University Jena, Humboldtstrasse 8, 07743 Jena, Germany
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Issue 11
Keywords Urea
Infrared spectroscopy
Benzene carboxylate
Coordination polymer
Magnetism
Diaminohexane
curie-weiss law
mellitate
Copper complexes
Language English
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PublicationTitle Zeitschrift für anorganische und allgemeine Chemie (1950)
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Snippet Blue monoclinic single crystals of the novel one‐dimensional [H3N‐(CH2)6‐NH3][Cu(H2O)2(urea)(μ2‐C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in...
Blue monoclinic single crystals of the novel one-dimensional [H3N-(CH2)6-NH3][Cu(H2O)2(urea)(µ2-C6(COO)4(COOH)2)]·H2O coordination polymer were prepared in...
Blue monoclinic single crystals of the novel one-dimensional [H 3 N-(CH 2) 6-NH 3 ][Cu(H 2 O) 2 (urea)(µ 2-C 6 (COO) 4 (COOH) 2)]*H 2 O coordination polymer...
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StartPage 1886
SubjectTerms Benzenehexacarboxylic acid
Chemical Sciences
Coordination chemistry
Copper
Diaminohexane
Inorganic chemistry
Polyanions
Urea
Title A Novel One-Dimensional Copper Mellitate Complex Featured by {Cu(H2O)2(urea)[C6(COO)4(COOH)2]}n2n- Polyanions
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https://hal.science/hal-02867543
Volume 641
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