Synthesis, Crystal Structure, and Characterization of Two Novel One‐ and Two‐Dimensionally Polymeric Copper(II) Phosphonoacetates

Blue single crystals of Cu[μ2‐OOC(CH2)PO3H]·2H2O (1) and Cu1.5[μ3‐OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no. 15) with a = 1623.3(2), b = 624.0(1), c = 1495.5(2) pm, β = 122.45(1)°], Cu is coordinated by three oxygen atoms stemming from the hydrogenp...

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Vydáno v:	Zeitschrift für anorganische und allgemeine Chemie (1950) Ročník 643; číslo 3; s. 276 - 285
Hlavní autoři:	Köferstein, Roberto, Arnold, Michael, Robl, Christian
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Weinheim Wiley Subscription Services, Inc 01.02.2017 Wiley-VCH Verlag
Edice:	Z. Anorg. Allg. Chem
Témata:	Chemical Sciences Coordination chemistry Cristallography Inorganic chemistry Phosphonoacetic acid; UV/Vis spectroscopy; Coordination polymer; Crystal structure; Magnetic properties Coordination polymers Uv-Vis Absorption Magnetism phosphonoacetate phosphonoacetic acid Coordination Chemistry Copper Complexes Metal-organic Frameworks
ISSN:	0044-2313, 1521-3749
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Abstract	Blue single crystals of Cu[μ2‐OOC(CH2)PO3H]·2H2O (1) and Cu1.5[μ3‐OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no. 15) with a = 1623.3(2), b = 624.0(1), c = 1495.5(2) pm, β = 122.45(1)°], Cu is coordinated by three oxygen atoms stemming from the hydrogenphosphonoacetate dianion and three water molecules to form a distorted octahedron. The Cu–O bonds range from 190.4(3) to 278.5(3) pm. The connection between the Cu2+ cations and the hydrogenphosphonoacetate dianions leads to a two‐dimensional structure with layers parallel to (101). The layers are linked by hydrogen bonds. In compound 2 [space group P1 (no. 2) with a = 608.2(1), b = 800.1(1), c = 1083.6(1) pm, α = 94.98(1)°, β = 105.71(1)°, γ = 109.84(1)°], two crystallographically independent Cu2+ cations are coordinated in a square pyramidal and an octahedral fashion, respectively. The Cu–O bonds range from 192.9(2) to 237.2(2) pm. The coordination of the phosphonoacetate trianion to Cu(1) results in infinite polyanionic chains parallel to [100] with a composition of {Cu(H2O)[OOC(CH2)PO3]}nn–. Hydrated Cu(2) cations are accommodated between the chains as counterions. 1 and 2 show structural features of cation exchangers. Magnetic measurements reveal a paramagnetic Curie‐Weiss behavior. Compound 2 shows antiferromagnetic coupling between Cu2+ ions due to a super‐superexchange coupling. The UV/Vis spectra of 1 suggest three d–d transition bands at 763 nm (2B1 → 2E), 878 nm (2B1 → 2B2), and 1061 nm (2B1 → 2A1). Thermoanalytical investigations in air show that compound 1 is stable up to 165 °C, whereas decomposition of 2 begins at 63 °C.
AbstractList	Blue single crystals of Cu[µ2-OOC(CH2)PO3H]·2H2O (1) and Cu1.5[µ3-OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no. 15) with a = 1623.3(2), b = 624.0(1), c = 1495.5(2) pm, [beta] = 122.45(1)°], Cu is coordinated by three oxygen atoms stemming from the hydrogenphosphonoacetate dianion and three water molecules to form a distorted octahedron. The Cu-O bonds range from 190.4(3) to 278.5(3) pm. The connection between the Cu2+ cations and the hydrogenphosphonoacetate dianions leads to a two-dimensional structure with layers parallel to (101). The layers are linked by hydrogen bonds. In compound 2 [space group P1 (no. 2) with a = 608.2(1), b = 800.1(1), c = 1083.6(1) pm, [alpha] = 94.98(1)°, [beta] = 105.71(1)°, [gamma] = 109.84(1)°], two crystallographically independent Cu2+ cations are coordinated in a square pyramidal and an octahedral fashion, respectively. The Cu-O bonds range from 192.9(2) to 237.2(2) pm. The coordination of the phosphonoacetate trianion to Cu(1) results in infinite polyanionic chains parallel to [100] with a composition of {Cu(H2O)[OOC(CH2)PO3]}nn-. Hydrated Cu(2) cations are accommodated between the chains as counterions. 1 and 2 show structural features of cation exchangers. Magnetic measurements reveal a paramagnetic Curie-Weiss behavior. Compound 2 shows antiferromagnetic coupling between Cu2+ ions due to a super-superexchange coupling. The UV/Vis spectra of 1 suggest three d-d transition bands at 763 nm (2B1 [arrow right] 2E), 878 nm (2B1 [arrow right] 2B2), and 1061 nm (2B1 [arrow right] 2A1). Thermoanalytical investigations in air show that compound 1 is stable up to 165 °C, whereas decomposition of 2 begins at 63 °C. Blue single crystals of Cu[μ2‐OOC(CH2)PO3H]·2H2O (1) and Cu1.5[μ3‐OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no. 15) with a = 1623.3(2), b = 624.0(1), c = 1495.5(2) pm, β = 122.45(1)°], Cu is coordinated by three oxygen atoms stemming from the hydrogenphosphonoacetate dianion and three water molecules to form a distorted octahedron. The Cu–O bonds range from 190.4(3) to 278.5(3) pm. The connection between the Cu2+ cations and the hydrogenphosphonoacetate dianions leads to a two‐dimensional structure with layers parallel to (101). The layers are linked by hydrogen bonds. In compound 2 [space group P1 (no. 2) with a = 608.2(1), b = 800.1(1), c = 1083.6(1) pm, α = 94.98(1)°, β = 105.71(1)°, γ = 109.84(1)°], two crystallographically independent Cu2+ cations are coordinated in a square pyramidal and an octahedral fashion, respectively. The Cu–O bonds range from 192.9(2) to 237.2(2) pm. The coordination of the phosphonoacetate trianion to Cu(1) results in infinite polyanionic chains parallel to [100] with a composition of {Cu(H2O)[OOC(CH2)PO3]}nn–. Hydrated Cu(2) cations are accommodated between the chains as counterions. 1 and 2 show structural features of cation exchangers. Magnetic measurements reveal a paramagnetic Curie‐Weiss behavior. Compound 2 shows antiferromagnetic coupling between Cu2+ ions due to a super‐superexchange coupling. The UV/Vis spectra of 1 suggest three d–d transition bands at 763 nm (2B1 → 2E), 878 nm (2B1 → 2B2), and 1061 nm (2B1 → 2A1). Thermoanalytical investigations in air show that compound 1 is stable up to 165 °C, whereas decomposition of 2 begins at 63 °C. Blue single crystals of Cu[μ2-OOC(CH2)PO3H].2H2O (1) and Cu1.5[μ3-OOC(CH2)PO3].5H2O (2) have been prepared in aqueous solution. 1:Space group C2/c (no. 15) with a = 1623.3(2), b = 624.0(1), c = 1495.5(2) pm, beta = 122.45(1)°. Cu is coordinated by three oxygen atoms stemming from the hydrogenphosphonoacetate dianion and three water molecules to form a distorted octahedron. The Cu-O bonds range from 190.4(3) to 278.5(3) pm. The connection between the Cu2+ cations and the hydrogenphosphonoacetate dianions leads to a two-dimensional structure with layers parallel to ( 01). The layers are linked by hydrogen bonds. 2: Space group (no. 2) with a = 608.2(1), b = 800.1(1), c = 1083.6(1) pm, alpha = 94.98(1)°, beta = 105.71(1)°, gamma = 109.84(1)°. There are two crystallographically independent Cu2+ cations coordinated in a square pyramidal and an octahedral fashion, respectively. The Cu-O bonds range from 192.9(2) to 237.2(2) pm. The coordination of the phosphonoacetate trianion to Cu(1) results in infinite polyanionic chains parallel to [100] with a composition of {Cu(H2O)[OOC(CH2)PO3]}nn-. Hydrated Cu(2) cations are accommodated between the chains as counter ions. 1 and 2 show structural features of cation exchangers. Magnetic measurements reveal a paramagnetic Curie-Weiss behaviour. Compound 2 shows antiferromagnetic coupling between Cu2+ ions due to a super-superexchange coupling. The UV/Vis spectra of 1 suggests three dd transition bands at 763 nm (2B1 - 2E), 878 nm (2B1 - 2B2), and 1061 nm (2B1 - 2A1). Thermoanalytical investigations in air show that compound 1 is stable up to 165 °C, whereas the decomposition of 2 begins at 63 °C.
Author	Robl, Christian Köferstein, Roberto Arnold, Michael
Author_xml	– sequence: 1 givenname: Roberto surname: Köferstein fullname: Köferstein, Roberto organization: Martin Luther University Halle‐Wittenberg – sequence: 2 givenname: Michael surname: Arnold fullname: Arnold, Michael organization: Friedrich‐Schiller‐University Jena – sequence: 3 givenname: Christian surname: Robl fullname: Robl, Christian email: crr@uni‐jena.de organization: Friedrich‐Schiller‐University Jena
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Keywords	Coordination polymers Uv-Vis Absorption Magnetism phosphonoacetate phosphonoacetic acid Coordination Chemistry Copper Complexes Metal-organic Frameworks
Language	English
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Snippet	Blue single crystals of Cu[μ2‐OOC(CH2)PO3H]·2H2O (1) and Cu1.5[μ3‐OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no.... Blue single crystals of Cu[µ2-OOC(CH2)PO3H]·2H2O (1) and Cu1.5[µ3-OOC(CH2)PO3]·5H2O (2) were prepared in aqueous solution. In compound 1 [space group C2/c (no.... Blue single crystals of Cu[μ2-OOC(CH2)PO3H].2H2O (1) and Cu1.5[μ3-OOC(CH2)PO3].5H2O (2) have been prepared in aqueous solution. 1:Space group C2/c (no. 15)...
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SubjectTerms	Chemical Sciences Coordination chemistry Cristallography Inorganic chemistry Phosphonoacetic acid; UV/Vis spectroscopy; Coordination polymer; Crystal structure; Magnetic properties
Title	Synthesis, Crystal Structure, and Characterization of Two Novel One‐ and Two‐Dimensionally Polymeric Copper(II) Phosphonoacetates
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