Structural Variety of Isopropyl-bis(2-picolyl)amine Complexes with Zinc(II) and Copper(II)

Juraj, Natalija Pantalon; Muratović, Senada; Perić, Berislav; Vujičić, Nataša Šijaković; Vianello, Robert; Žilić, Dijana; Jagličić, Zvonko; Kirin, Srećko I.

doi:10.1021/acs.cgd.9b01625

Cited by 17 publications

(15 citation statements)

References 79 publications

(148 reference statements)

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“…After MD simulations identified representative structures of free ligands and different isomers of ML and ML 2 complexes with Zn( ii ) in solution, these were used as starting points for the DFT geometry optimization employing a very efficient M05-2X/6-31+G(d)/LanL2DZ+ECP model, known to be successful in reproducing geometries, dipole moments, and homolytic bond energies in various metal complexes, 73,74 and in line with our comparative analysis with other DFT approaches on similar systems. 29 To account for the effect of the acetonitrile solution, during geometry optimization, we included the implicit SMD solvation model ( ε = 35.688), as employed in our earlier studies. 31 Thermal corrections were extracted from the corresponding frequency calculations, so that all of the presented results correspond to differences in the Gibbs free energies at room temperature.…”

Section: Methodsmentioning

confidence: 99%

“…Herein, we studied metal complexes of bis(2-picolyl)amine (bpa) and iminodiacetamide (imda) ligands with a side chain containing a remote chiral center. In the ML 2 complexes, three isomers can form: mer , trans – fac and cis – fac , and the bpa and imda chelating groups were chosen as ligands with a preference for formation of cis – fac 28–30 and trans – fac 31,32 isomers, respectively. Other than the type of ligand, the formation of different isomers depends on additional factors, such as the type of metal center, counterion, and non-covalent interactions.…”

Section: Introductionmentioning

confidence: 99%

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Tuning the coordination properties of chiral pseudopeptide bis(2-picolyl)amine and iminodiacetamide ligands in Zn(ii) and Cu(ii) complexes

et al. 2022

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Tuning the coordination properties of chiral pseudopeptide bis(2-picolyl)amine and iminodiacetamide ligands in Zn(ii) and Cu(ii) complexes

et al. 2022

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“…Also, during geometry optimization we included the implicit SMD solvation with all parameters for pure water, in line with our earlier reports that used the same approach to interpret solid-state features of a variety of metal complexes. [49][50][51][52] Atomic charges were obtained through the natural bond orbital (NBO) analysis [53] by the same model. All calculations were performed using the Gaussian 16 software.…”

Section: Methodsmentioning

confidence: 99%

Self‐Assembly of Cobalt(II) Coordination Polymers with Differently Halosubstituted Nicotinate Ligands and 4,4’‐Bipyridine – The Effect of the Halosubstituent Positions on Polymer Types

et al. 2021

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Two structurally different 1D cobalt(II) coordination polymers with 4,4'-bipyridine (4,4'-bpy) and 2-chloronicotinate (2-Cl-nic) or 5-bromonicotinate (5-Br-nic), namely {[Co(2-Cl-nic) 2 (4,4'bpy)(H 2 O) 2 ] • 4H 2 O} n (1) and {[Co(4,4'-bpy)(H 2 O) 4 ] [Co(5-Brnic) 4 (H 2 O) 2 ] • 4,4'-bpy • 2H 2 O} n (2), were prepared under the same experimental conditions. The cobalt(II) ions in 1 are bridged by 4,4'-bipyridine ligands into a 1D polymeric chain, each cobalt(II) ion being coordinated with two O-monodentate 2-chloronicotinate ligands and two water molecules as well, while 2 consists of a complex cation {[Co(4,4'-bpy)(H 2 O) 4 ] 2 + } n , in which cobalt(II) ions are bridged by 4,4'-bipyridine ligands into a 1D polymeric chain, and a complex anion [Co(5-Br-nic) 4 (H 2 O) 2 ] 2À , in which cobalt(II) ion is coordinated with four 5-bromonicotinate ligands (two of them being O-monodentate and the other two are Nmonodentate) and two water molecules. DFT calculations revealed a correlation between the halosubstituent (chlorine or bromine) positions in the employed nicotinate ligands and the cobalt(II) coordination environments in the obtained coordination polymers, being responsible for their different structural types.

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“…In comparison to relatively complicated binuclear complex-based receptors composed of zinc(II)-dpa, − Cu II -dpa-based mononuclear complexes are capable of capturing Pi even in the simpler chemical structures . Two or three vacant coordination sites in the Cu II -dpa complex can be the recognition scaffold for the detection of Pi . Toward on-site sensing of oxyanions including Pi, the realization of a solid-state sensing platform is a valid strategy.…”

Section: Introductionmentioning

confidence: 99%

Multi-Oxyanion Detection by an Organic Field-Effect Transistor with Pattern Recognition Techniques and Its Application to Quantitative Phosphate Sensing in Human Blood Serum

Mitobe

Sasaki

Tang

et al. 2022

ACS Appl. Mater. Interfaces

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We herein report an organic field-effect transistor (OFET) based chemical sensor for multi-oxyanion detection with pattern recognition techniques. The oxyanions ubiquitously play versatile roles in biological systems, and accessing the chemical information they provide would potentially facilitate fundamental research in diagnosis and pharmacology. In this regard, phosphates in human blood serum would be a promising indicator for early case detection of significant diseases. Thus, the development of an easy-to-use chemical sensor for qualitative and quantitative detection of oxyanions is required in real-world scenarios. To this end, an extended-gate-type OFET has been functionalized with a metal complex consisting of 2,2′-dipicolylamine and a copper(II) ion (CuII-dpa), allowing a compact chemical sensor for oxyanion detection. The OFET combined with a uniform CuII-dpa-based self-assembled monolayer (SAM) on the extended-gate gold electrode shows a cross-reactive response, which suggests a discriminatory power for pattern recognition. Indeed, the qualitative detection of 13 oxyanions (i.e., hydrogen monophosphate, pyrophosphate, adenosine monophosphate, adenosine diphosphate, adenosine triphosphate, terephthalate, phthalate, isophthalate, malonate, oxalate, lactate, benzoate, and acetate) has been demonstrated by only using a single OFET-based sensor with linear discriminant analysis, which has shown 100% correct classification. The OFET has been further applied to the quantification of hydrogen monophosphate in human blood serum using a support vector machine (SVM). The multiple predictions of hydrogen monophosphate at 49 and 89 μM have been successfully realized with low errors, which indicates that the OFET-based sensor with pattern recognition techniques would be a practical sensing platform for medical assays. We believe that a combination of the OFET functionalized with the SAM-based recognition scaffold and powerful pattern recognition methods can achieve multi-analyte detection from just a single sensor.

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Structural Variety of Isopropyl-bis(2-picolyl)amine Complexes with Zinc(II) and Copper(II)

Cited by 17 publications

References 79 publications

Tuning the coordination properties of chiral pseudopeptide bis(2-picolyl)amine and iminodiacetamide ligands in Zn(ii) and Cu(ii) complexes

Tuning the coordination properties of chiral pseudopeptide bis(2-picolyl)amine and iminodiacetamide ligands in Zn(ii) and Cu(ii) complexes

Self‐Assembly of Cobalt(II) Coordination Polymers with Differently Halosubstituted Nicotinate Ligands and 4,4’‐Bipyridine – The Effect of the Halosubstituent Positions on Polymer Types

Multi-Oxyanion Detection by an Organic Field-Effect Transistor with Pattern Recognition Techniques and Its Application to Quantitative Phosphate Sensing in Human Blood Serum

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