Structural Characterization, Molecular Docking and Protective Effect on Coronary Artery Disease of a New Nanostructured Cu(II)-Coordination Polymer by Reducing the Inflammatory Level

“…In compound 1, the lengths of CuO bond range from 2.030(3) to 2.138(3) Å, and when compared with the other corresponding lengths of bond of Cu(II)-fdc compounds being reported, it indicates that they are identical. [21,22] It has been observed that DMF molecules occupy the 1D channels of compound 1. We obtained a result of 22.7% as the accessible volume of the solvent after using PLATON to calculate the data.…”

Retracted: Two Cu(II)‐based coordination polymers: Treatment activity on diabetic nephropathy via reducing aldose reductase activity and blood glucose concentration

“…In compound 1, the lengths of CuO bond range from 2.030(3) to 2.138(3) Å, and when compared with the other corresponding lengths of bond of Cu(II)-fdc compounds being reported, it indicates that they are identical. [21,22] It has been observed that DMF molecules occupy the 1D channels of compound 1. We obtained a result of 22.7% as the accessible volume of the solvent after using PLATON to calculate the data.…”

Retracted: Two Cu(II)‐based coordination polymers: Treatment activity on diabetic nephropathy via reducing aldose reductase activity and blood glucose concentration