New thiosemicarbazone Schiff base ligands: Synthesis, characterization, catecholase study and hemolytic activity

Abstract: Two novel thiosemicarbazones ligands have been synthesized and characterized by FT-IR, ESI-MS, 1 H NMR, and also by single-crystal X-ray diffraction for L1. The crystal structure shows that L1 molecules are planar and are connected via N-H-S and O-H-S interactions. The catecholase activity of is situ copper and cobalt complexes of this ligands has been investigated against 3,5-di-tert-butylcatechol. The progress of the oxidation reactions was closely monitored over time following the strong peak of 3,5-DTBC us… Show more

“…The electronic transitions observed in ligand due to imine function of thio-semicarbazone moiety were slightly shifted on complexation with metal. UV-Vis spectra [1] of HL show two bands, first at 328 nm corresponding to n→π* transition in the thiosemicarbazone group, and second one at 367 nm corresponding to π→π* of the phenyl ring; while Ni(II) complex [Ni(L) 2 ] ( 1 ) shows peak at 295 for n→π* and at 372 for π→π*; similarly, Cu(II) complex [Cu(L) 2 ] ( 2 ) shows peak at 310 for n→π* and at 371 for π→π*. The shift of the bands due to intra ligand transitions is the result of weaking of the C=S bond and the extension of conjugation upon complexation.…”

“…Thiosemicarbazone Schiff base ligands are condensation products of thiosemicarbazide with suitable carbonyl compounds [ 1 , 2 ]. They have attracted enormous attention because of their significance in chemical and biological activities.…”

Design, synthesis and characterization of novel Ni(II) and Cu(II) complexes as antivirus drug candidates against SARS-CoV-2 and HIV virus

“…The electronic transitions observed in ligand due to imine function of thio-semicarbazone moiety were slightly shifted on complexation with metal. UV-Vis spectra [1] of HL show two bands, first at 328 nm corresponding to n→π* transition in the thiosemicarbazone group, and second one at 367 nm corresponding to π→π* of the phenyl ring; while Ni(II) complex [Ni(L) 2 ] ( 1 ) shows peak at 295 for n→π* and at 372 for π→π*; similarly, Cu(II) complex [Cu(L) 2 ] ( 2 ) shows peak at 310 for n→π* and at 371 for π→π*. The shift of the bands due to intra ligand transitions is the result of weaking of the C=S bond and the extension of conjugation upon complexation.…”

“…Thiosemicarbazone Schiff base ligands are condensation products of thiosemicarbazide with suitable carbonyl compounds [ 1 , 2 ]. They have attracted enormous attention because of their significance in chemical and biological activities.…”

Design, synthesis and characterization of novel Ni(II) and Cu(II) complexes as antivirus drug candidates against SARS-CoV-2 and HIV virus

“…For catecholase, the appearance of a new single peak with λmax = 390 nm ported the formation of pure o-quinone [37][38][39][40][41], as can be seen in Figure 6a. The pro reached full complexness with ˃99% conversion within the first 45 min (Figure 6b); m while, the appearance of new peaks with λmax= 433 nm during the phenoxazinone pro confirmed the formation of 2-aminophenoxazinone [38][39][40][41][42][43][44][45][46][47], as can be seen in Figure To confirm the presence of five coordination bonds around the Co(II) center in the absence of XRD-crystal and NMR measurements, Job's method of titration was applied. The UV-Vis Job's method produced a one-to-one metal-to-ligand stochiometric ratio, which supported the presence of the expected 5 coordination structure since the ligand is considered to be tridentate.…”

Synthesis, Characterization, DFT, and Thermogravimetric Analysis of Neutral Co(II)/Pyrazole Complex, Catalytic Activity toward Catecholase and Phenoxazinone Oxidation

“…Schiff-based ligands of thiosemicarbazones have gained significance over the decades as potential drug candidates (Nehar et al, 2020). Thiosemicarbazones are a group of compounds with numerous pharmacological applications, such as anti-inflammatory (Palaska et al, 2002), antibacterial (Plech et al, 2011), antifungal, antituberculosis (Küçükgüzel et al, 2006), antiviral (Pandeya et al, 1999), and antitumoral (de Oliveira et al, 2015 activities.…”

Synthesis, spectroscopic characterization, thermal studies, and molecular docking of novel Cr(III), Fe(III), and Co(II) complexes based on Schiff base: In vitro antibacterial and antitumor activities