Diverse structures and adsorption properties of quasi-Werner-type copper(ii) complexes with flexible and polar axial bonds

Noro, Shin Ichiro; Ohba, Tomonori; Fukuhara, Katsuo; Takahashi, Yukiko; Akutagawa, Tomoyuki; Nakamura, Takayoshi

doi:10.1039/c0dt01129k

Cited by 27 publications

(21 citation statements)

References 68 publications

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“…The distance of Cu-F1 is 2.4027 (14) Å. To the best of our knowledge, the crystal structure report of PF 6 -coordinated Cu II complex is only a few examples (Noro et al, 2011). The adjacent dinuclear complexes are stacked in columns through a weak π-π stacking interaction between pyridyl and pyrazol rings of the bpypz -ions (centroid-centroid distance 3.879 Å) and C-H···F hydrogen bonds between the bpypzand the PF 6 -ions ( Table 2).…”

Section: S1 Commentmentioning

confidence: 99%

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

et al. 2013

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Key indicators: single-crystal X-ray study; T = 200 K; mean (C-C) = 0.003 Å; R factor = 0.027; wR factor = 0.074; data-to-parameter ratio = 14.9.The title dinuclear complex molecule, [Cu 2 (C 13 H 9 N 4 ) 2 (PF 6 ) 2 ], lies about an inversion center. The Cu II atom shows a squarepyramidal coordination geometry with the basal plane formed by four N atoms of the two bis-chelating 3,5-bis(pyridin-2-yl)pyrazolate ions and with one F atom of the hexafluorophosphate ion in the apical position. Molecules are stacked in a column along the a axis through C-HÁ Á ÁF hydrogen bonds. The columns are further linked by other C-HÁ Á ÁF hydrogen bonds, forming a three-dimensional network. Related literature

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Section: S1 Commentmentioning

confidence: 99%

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

et al. 2013

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“…Because ¡-PAC-1-PF 6 possesses no vacant space, the observed adsorption behavior with large hysteresis should be associated with gate-opening processes, in which adsorption occurs with structural transformations. 4 On the other hand, ¡-PAC-1-CF 3 SO 3 scarcely adsorbs CO 2 gas over the entire pressure range. In general, the gate-opening pressure depends on the strength of hosthost and/ or hostguest interactions.…”

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confidence: 99%

“…4 The dense ¡-form, ¡-PAC-1-PF 6 , has inorganic PF 6 ¹ anions covered with only fluorine atoms in the framework, and it adsorbs CO 2 gas with structural transformations; this is the first example of gas-adsorption properties in the dense ¡-form. On the other hand, when ¡-PAC-1-PF 6 is recrystallized from acetone/n-hexane and 2-butanone/n-hexane, some of the weakly coordinated PF 6 ¹ anions are easily released from the axial sites and Lewis-base guests (acetone and 2-butanone) attach to these sites instead, forming the guest-including £-form, £-{[Cu(PF 6 ) 2 (4-mepy) 4 ][Cu(PF 6 )(4-mepy) 4 (PF 6 )(4-mepy) 4 (2-butanone)]¢PF 6 ¢3.5(2-butanone)} (£-PAC-1-PF 6¸2 .25(2-butanone)). The prefix "quasi-" derives from such labile axial bonds.…”

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confidence: 99%

“…In this letter, we report the synthesis, crystal structure, and adsorption properties of a derivative of ¡-PAC-1-PF 6 , ¡-[Cu(CF 3 SO 3 ) 2 (4-mepy) 4 ] (¡-PAC-1-CF 3 SO 3 ), to investigate the effect of inorganic anions on the adsorption properties. The introduction of CF 3 SO 3 ¹ anions enhanced the intermolecular interactions through the oxygen atoms of the anions and inhibited gas adsorption with structural changes.…”

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confidence: 99%

“…1a Among them, [Ni(NCS) 2 (4-mepy) 4 ] has been thoroughly studied because of its interesting guest-inclusion properties derived from pseudopolymorphism, such as a dense ¡-form, and guest-including ¢-and £-forms. The ¡-form has no space for including guest molecules because of its dense packing structure, whereas the ¢-and £-forms are channel-type and layer-type clathrates, respectively.…”

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confidence: 99%

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Synthesis, Crystal Structure, and Adsorption Properties of Werner-type Cu(II) Complex [Cu(CF3SO3)2(4-methylpyridine)4]

et al. 2012

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A Werner-type Cu(II) complex, ¡-[Cu(CF 3 SO 3 ) 2 (4-mepy) 4 ] (¡-PAC-1-CF 3 SO 3 , PAC: porous assembly of coordination complex and 4-mepy: 4-methylpyridine), was synthesized, crystallographically characterized, and its adsorption properties were compared with those of the derivative ¡-[Cu(PF 6 ) 2 (4-mepy) 4 ] (¡-PAC-1-PF 6 ).Porous assemblies of coordination complexes (PACs), which are formed by the assembly of discrete coordination complexes without internal spaces via intermolecular interactions (van der Waals, electrostatic, and hydrogen-bonding interactions) that are weaker than coordination bonds, 1 3 have the potential to provide the following unique host guest features: (i) diversity in assembled structures with guest molecules, resulting from weak and flexible intermolecular interactions; 1h,1i (ii) formation of host frameworks consisting of two or more different discrete coordination complexes; 1j (iii) facile fabrication of films because of high solubility; 1k,1l and (iv) polymorphism without guest molecules, which is controlled by a kind of preadsorbed guests. 1c,1i These characteristics of PACs could supply not only fundamental information about their pores but also unprecedented, useful porous functions.The Werner-type complex [Ni(NCS) 2 (4-mepy) 4 ] (4-mepy: 4-methylpyridine) and its derivatives are well known as examples of PACs; their preparation and guest-inclusion abilities were first reported in 1957. 1a Among them, [Ni(NCS) 2 (4-mepy) 4 ] has been thoroughly studied because of its interesting guest-inclusion properties derived from pseudopolymorphism, such as a dense ¡-form, and guest-including ¢-and £-forms. The ¡-form has no space for including guest molecules because of its dense packing structure, whereas the ¢-and £-forms are channel-type and layer-type clathrates, respectively. 1i In particular, this complex easily affords an empty ¢-form that adsorbs several gases with type I isotherms.We have recently found that a Cu(II)-based PAC, [Cu(PF 6 ) 2 (4-mepy) 4 ] (PAC-1-PF 6 ), which is a quasi-Wernertype metal complex, has interesting guest-recognition abilities. 4 The dense ¡-form, ¡-PAC-1-PF 6 , has inorganic PF 6 ¹ anions covered with only fluorine atoms in the framework, and it adsorbs CO 2 gas with structural transformations; this is the first example of gas-adsorption properties in the dense ¡-form. On the other hand, when ¡-PAC-1-PF 6 is recrystallized from acetone/n-hexane and 2-butanone/n-hexane, some of the weakly coordinated PF 6 ¹ anions are easily released from the axial sites and Lewis-base guests (acetone and 2-butanone) attach to these sites instead, forming the guest-including £-form, £-{[Cu(PF 6 ) 2 (4-mepy) 4 ][Cu(PF 6 )(4-mepy) 4 (acetone)]¢ PF 6 ¢4acetone} (£-PAC-1-PF 6¸2 .5acetone), £-{[Cu(PF 6 ) 2 (4-mepy) 4 ][Cu(PF 6 )(4-mepy) 4 (2-butanone)]¢PF 6 ¢3.5(2-butanone)} (£-PAC-1-PF 6¸2 .25(2-butanone)). The prefix "quasi-" derives from such labile axial bonds. These unprecedented phenomena have never been observed in any other Werner-type metal complexes. These result...

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High CO₂/CH₄ Selectivity of a Flexible Copper(II) Porous Coordination Polymer under Humid Conditions

et al. 2015

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The development of highly efficient CO2 separation materials is very important for environmental preservation and energy conservation. Crystalline porous coordination polymers (PCPs)/metal–organic frameworks are one of a number of promising types of porous materials for CO2 separation because of their controllable pore size, shape and surface function. Simultaneously, the unique structural flexibility of PCPs affords both high CO2 selectivity and inexpensive regeneration. However, this family of materials suffers from the coexistence of water that destroys the framework of PCPs and its adsorption in the pores is greater than that of CO2, which results in a deterioration in CO2‐separation performance. Herein, a flexible and hydrophobic CuII PCP that is stable towards water has been designed and synthesised. This PCP has extremely high adsorption selectivity for CO2 over CH4, derived from its structural flexibility. Furthermore, the obtained water‐tolerant flexible PCP, under CO2/CH4 mixed‐gas conditions, exhibits highly selective CO2 adsorption over CH4, even in the presence of water.

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Diverse structures and adsorption properties of quasi-Werner-type copper(ii) complexes with flexible and polar axial bonds

Cited by 27 publications

References 68 publications

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

Synthesis, Crystal Structure, and Adsorption Properties of Werner-type Cu(II) Complex [Cu(CF3SO3)2(4-methylpyridine)4]

High CO₂/CH₄ Selectivity of a Flexible Copper(II) Porous Coordination Polymer under Humid Conditions

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Diverse structures and adsorption properties of quasi-Werner-type copper(ii) complexes with flexible and polar axial bonds

Cited by 27 publications

References 68 publications

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

Bis[μ-3,5-bis(pyridin-2-yl)pyrazolato]bis[(hexafluorophosphato)copper(II)]

Synthesis, Crystal Structure, and Adsorption Properties of Werner-type Cu(II) Complex [Cu(CF3SO3)2(4-methylpyridine)4]

High CO2/CH4 Selectivity of a Flexible Copper(II) Porous Coordination Polymer under Humid Conditions

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High CO₂/CH₄ Selectivity of a Flexible Copper(II) Porous Coordination Polymer under Humid Conditions