Mn(II), Ni(II), Cu(II), Zn(II), Cd(II), Hg(II) and Co(II) complexes of 1-phenyl-1H-tetrazole-5-thiol: Synthesis, spectral, structural characterization and thermal studies

Bharty, M.K.; Dani, R.K.; Kushawaha, S.K.; Singh, Nanhai; Kharwar, Ravindra N.; Butcher, Ray J.

doi:10.1016/j.poly.2014.12.013

Cited by 44 publications

(21 citation statements)

References 21 publications

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“…Coordination polymers constructed from 1H-tetrazole-5-thiol and its derivatives have received much attention because of the diverse coordination properties of these ligands [1][2][3][4][5][6][7][8]. In order to further develop this branch of coordination chemistry research, the title coordination polymer based on Liu and Zhang: C 2 H 3 CuN4S Table 3: Fractional coordinates and atomic displacement parameters (Å 2 ).…”

Section: Discussionmentioning

confidence: 99%

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Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

Liu

Zhang

2016

Zeitschrift Für Kristallographie - New Crystal Structures

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CuC 2 H 3 N4S, monoclinic, P21/c (no. 14), a = 8.6567(9) Å, CCDC no.: 1460871The gure shows a part of the title structure (asymmetric unit and three symmetry related ligands). Tables 1-3 contain details of the methods used and a list of the atoms including atomic coordinates and displacement parameters. Source of materialA mixture of Cu(CH 3 COO) 2 . H 2 O (0.5 mmol), 1-methyl-1H-tetrazole-5-thiol (0.5 mmol) and H 2 O (10 mL) was stirred at

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Section: Discussionmentioning

confidence: 99%

“…A mixture of Cu(CH 3 COO) 2 . H 2 O (0.5 mmol), 1-methyl-1H-tetrazole-5-thiol (0.5 mmol) and H 2 O (10 mL) was stirred at room temperature for 30 min.…”

Section: Source Of Materialsmentioning

confidence: 99%

Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

Liu

Zhang

2016

Zeitschrift Für Kristallographie - New Crystal Structures

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“…Thione compounds are adaptable ligands capable of bonding to transition metal chemistry and non‐transition metals, and the coordinate to transition metals in a wide range of oxidation state. [ 1–18 ] Thione ligands have the facility to stabilize both low and high oxidation state of metal ions, and this mostly due to the approval of thiol and thione tautmers (Chart 1). [ 1 ]…”

Section: Introductionmentioning

confidence: 99%

“…The thiol‐substituted heterocycle ligand, 1‐phenyl‐tetrazole‐5‐thiol (Hptt), having one soft donor sulfur and three hard donor nitrogen atoms, is a tetrazole‐based heterocyclic thioamide, providing more coordination sites for metal ions to form metal coordination complexes, most commonly, as monodentate ligands through the sulfur or nitrogen atom and can coordinated as bidentate chelating fashion through the sulfur and nitrogen atoms, or mode and bidentate bridging mode through the sulfur and nitrogen atoms, or through the sulfur atom only, as bridge between two metals atoms. Recently, many studies were published including complexes of tetrazole‐5‐thiol ligand with metal ions, [ 2–18 ] or with mixed ligand complexes of tetrazole‐5‐thiol with phosphine or amine as co‐ligands. [ 6–11,19–26 ] Transition metal complexes of tetrazole‐5‐thione present a wide range of applications in agriculture, medicine, industry, analytical and organic chemistry, as antibacterial, anti‐fungal, and anti‐inflammatory.…”

Section: Introductionmentioning

confidence: 99%

New palladium (II) complexes with 1‐phenyl‐1H‐tetrazole‐5‐thiol and diphosphine Synthesis, characterization, biological, theoretical calculations and molecular docking studies

Al‐Janabi

Al-Samrai

Yousef

2020

Applied Organom Chemis

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This paper reports the syntheses and spectral investigations of the new complexes [Pd(k1‐S‐ptt)2(k2‐dppmS2)] (1), [Pd(k1‐S‐ptt)2(k2‐dppp)] (2a), [Pd(k1‐N‐ptt)2(k2‐dppp)] (2b), [Pd(k1‐S‐ptt)2(k2‐dpppS2)] (3), [Pd(k1‐S‐ptt)2(k2‐dppb)] (4), [Pd(k1‐S‐ptt)2(k2‐dppf)] (5a) and [Pd(k1‐N‐ptt)2(k2‐dppf)] (5b), derived from 1‐phenyl‐5‐thiol‐1H‐tetrazole (Hptt) and diphosphine (dppmS2, dppp, dpppS2, dppb and dppf) as co‐ligand. The Hptt ligand acts as monodentate through the thiolato sulfur atom in complexes 1, 3 and 4. While in complexes 2 and 5, the Hptt ligand also acts as monodentate through the nitrogen of heterocyclic ring, or sulfur of thiol group after deprotonation, as two linkage isomers. Theoretical calculations on the all complexes were performed, isomers based on 2a, 2b and 5a, 5b reveal that each pair of isomers is isoenergetic. For the 2a and 2b complexes the energy difference was 19.92 kcal mol−1, while for the 5a and 5b complexes the difference was 11.78 kcal mol−1. These differences are relatively small and suggest that the linkage isomers may be in equilibrium in solution. The reasons for the adoption of these different coordination modes are not clear but steric factors are likely to be a major contributory factor. Further, in vitro anti‐bacterial activity and molecular docking analysis has been carried out to study the activity of the compound.

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“…Tetrazole‐thione ligands containing sulfur and nitrogen donors and their complexes are very important because of their different application in different fields, such as medicine, material science, agriculture, and industry. [ 1–6 ] Tetrazole derivatives (such as tetrazole thiol) are important ligands in inorganic complexes. [ 6–15 ] Tetrazole‐thiol has a tautomeric equilibrium between thiol (I) and thione (II) forms (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Optical properties, structural, and DFT studies of Pd(II) complexes with 1‐phenyl‐1H‐tetrazol‐5‐thiol, X‐ray crystal structure of [Pd(κ¹‐S‐ptt)₂(κ²‐dppe)] complex

Al‐Janabi

Al‐Samra

Othman

et al. 2020

Applied Organom Chemis

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Seven tetrazole‐thione complexes, [Pd2(κ2‐ptt)4](1), trans‐[Pd(k1‐S‐ptt)2(PPh3)2] (2), trans‐[Pd(k1‐S‐ptt)2(SPPh3)2] (3), trans‐[Pd(k1‐S‐ptt)2(OPPh3)2] (4), [Pd(k1‐N‐ptt)2(k2‐dppe)] (5a), [Pd(k1‐S‐ptt)2(k2‐dppe)] (5b), [Pd(k1‐S‐ptt)2(k2‐dppeS2)] (6), and [Pd(k1‐S‐ptt)2(k2‐dppeO2)] (7), were prepared from 1‐phenyl‐1H‐tetrazole‐5‐thiol (Hptt), with substituted phosphines. These complexes were investigated by CHNS analysis; infrared (IR), nuclear magnetic resonance (NMR) (1H and 31P), and ultraviolet–visible (UV–Vis) spectroscopy; and single‐crystal X‐ray data for 5b. In Complex 1, the ptt− ligand adopted μ2‐ k‐N, k‐S bridging mode to afford a dimeric complex, whereas in Complexes 2–4, 6, and 7, the ptt− was covalently coordinated via sulfur atom of the thiol group as a solo product. In contrast, in Complex 5, the ptt− ligand was bonded in a monodentate fashion through a deprotonated tetrazole ring nitrogen atom in isomer 5a or via a thiolato sulfur atom in isomer 5b. These linkage isomers were clearly shown in the 31P‐{1H} NMR. To explain the adoption of the ligand binding modes in Complexes 5a and 5b, geometry optimization calculations were carried out on two isomers. Very small differences of all molecular parameters were found between 5a and 5b isomers. This confirms the reason for obtaining two isomers. Also, theoretical studies are made for all compounds, and excellent agreement is obtained with experimental data. The direct band gap (Eg) values are equal to 2.88, 2.85, and 2.45 eV for Complexes 1, 2, and 4, respectively, revealing a semiconductor nature. The inhibition activity of Complexes 1–3, 5, and 8 were evaluated versus the growth of four types of bacteria in vitro. The complexes showed a good activity compared with free ligand and a standard antibiotic.

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Mn(II), Ni(II), Cu(II), Zn(II), Cd(II), Hg(II) and Co(II) complexes of 1-phenyl-1H-tetrazole-5-thiol: Synthesis, spectral, structural characterization and thermal studies

Cited by 44 publications

References 21 publications

Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

New palladium (II) complexes with 1‐phenyl‐1H‐tetrazole‐5‐thiol and diphosphine Synthesis, characterization, biological, theoretical calculations and molecular docking studies

Optical properties, structural, and DFT studies of Pd(II) complexes with 1‐phenyl‐1H‐tetrazol‐5‐thiol, X‐ray crystal structure of [Pd(κ¹‐S‐ptt)₂(κ²‐dppe)] complex

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Mn(II), Ni(II), Cu(II), Zn(II), Cd(II), Hg(II) and Co(II) complexes of 1-phenyl-1H-tetrazole-5-thiol: Synthesis, spectral, structural characterization and thermal studies

Cited by 44 publications

References 21 publications

Crystal structure of poly[(μ4-1-methyl-1H-tetrazole-5-thiolato-κ3 S:S:N:N′)copper(I)], C2H3CuN4S

Crystal structure of poly[(μ4-1-methyl-1H-tetrazole-5-thiolato-κ3 S:S:N:N′)copper(I)], C2H3CuN4S

New palladium (II) complexes with 1‐phenyl‐1H‐tetrazole‐5‐thiol and diphosphine Synthesis, characterization, biological, theoretical calculations and molecular docking studies

Optical properties, structural, and DFT studies of Pd(II) complexes with 1‐phenyl‐1H‐tetrazol‐5‐thiol, X‐ray crystal structure of [Pd(κ1‐S‐ptt)2(κ2‐dppe)] complex

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Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

Crystal structure of poly[(μ₄-1-methyl-1H-tetrazole-5-thiolato-κ³ S:S:N:N′)copper(I)], C₂H₃CuN₄S

Optical properties, structural, and DFT studies of Pd(II) complexes with 1‐phenyl‐1H‐tetrazol‐5‐thiol, X‐ray crystal structure of [Pd(κ¹‐S‐ptt)₂(κ²‐dppe)] complex