Sonochemical synthesis, crystal structure, and magnetic properties of a novel organic-inorganic complex based on Mn (II), designed to produce a highly efficient and recyclable sorbent

“…As shown in the figure, the Mn (II) center achieves a slightly distorted octahedral geometry by coordination to four nitrogen atoms, one chlorine atom and one oxygen atom. [ 11 ] Mn complex has formed some hydrogen bonds between Cl counter ions and water oxygen atoms coordinated to the metal (Figure 2). These intermolecular hydrogen bonds in the complex structures increase the interaction between the Mn complex and catalase.…”

“…Here, the effect of Mn complex, [Mn (phen) 2 Cl.H 2 O]Cl.tu, [ 11 ] where phen is 1,10‐phenanthroline and tu is thiourea, on the catalytic performance and structure of bovine liver catalase (BLC) is evaluated using multi‐spectroscopic methods, and a molecular docking simulation is used to explain the mode of binding. This complex was selected based on several important points: (i) Mn can participate in redox reactions in the body due to its redox abilities.…”

Improving enzymatic performance of antioxidant enzyme catalase in combination with [Mn (phen)₂Cl.H₂O]Cl.tu complex

“…As shown in the figure, the Mn (II) center achieves a slightly distorted octahedral geometry by coordination to four nitrogen atoms, one chlorine atom and one oxygen atom. [ 11 ] Mn complex has formed some hydrogen bonds between Cl counter ions and water oxygen atoms coordinated to the metal (Figure 2). These intermolecular hydrogen bonds in the complex structures increase the interaction between the Mn complex and catalase.…”

“…Here, the effect of Mn complex, [Mn (phen) 2 Cl.H 2 O]Cl.tu, [ 11 ] where phen is 1,10‐phenanthroline and tu is thiourea, on the catalytic performance and structure of bovine liver catalase (BLC) is evaluated using multi‐spectroscopic methods, and a molecular docking simulation is used to explain the mode of binding. This complex was selected based on several important points: (i) Mn can participate in redox reactions in the body due to its redox abilities.…”

Improving enzymatic performance of antioxidant enzyme catalase in combination with [Mn (phen)₂Cl.H₂O]Cl.tu complex

“…The coordination compounds have been extensively studied due to their potential applications such as heterogeneous catalyst for photo-Fenton reaction in degraded dyes, gas storage, host-guest chemistry, anti-convulsant, anti-in ammatory, and anti-cancer agent [1][2][3][4][5][6][7]. Numerous researchers became interested in the preparation of transition metal oxide nanoparticles by thermal decomposition of coordination compounds [8][9][10]. The morphology, purity, distribution, and size of the nanoparticle can be in uenced by the method of preparation.…”

2D Polymeric Network of Cu/Na, A Route for the Preparation Truncated Octahedral Catalyst Applicable in the WGS Reaction

Zn-based coordination polymers with tricarboxylic acid ligand: fluorescence sensor toward Fe3 and MnO4−