An experimental and DFT study on free radical scavenging activity of hesperetin Schiff bases

“…Substitutions of the carbonyl group in the flavanone molecule with different substituents change the image of the absorption spectrum and may produce hypsochromic, bathochromic, hyperchromic, and hypochromic shifts of the absorptions (Figure 6). This phenomenon has been clearly demonstrated on hesperetin and its derivatives by Sykula and et al [28]. The derivatives contained the same substituents such as thiosemicarbazide, isoniazid, and benzhydrazide as the compounds in this work.…”

“…Moreover, the spectra for all studied compounds in an acidic environment showed decreased intensity in the region of the first absorption band, while the second band was more intense (Figure 6a). This could be caused by substituent groups in system B of the Schiff base molecules, which was also reported in the work of Sykula et al [28]. The molecular configurations indicated that the substituted groups (thiocarbohydrazide, thiosemicarbazide, isoniazide, and benzhydrazide) had an impact on π-electron transfers in the conjugated flavanone molecules.…”

“…N ′,2-bis(( E )-2-phenylchroman-4-ylidene)hydrazine-1-carbothiohydrazide ( FTCH 2:1 ). The ligand (2) has been prepared according to literature procedure [ 28 ]. Yield: 0.2 g, 38%; m.p.…”

Structural and Spectral Investigation of a Series of Flavanone Derivatives

“…Substitutions of the carbonyl group in the flavanone molecule with different substituents change the image of the absorption spectrum and may produce hypsochromic, bathochromic, hyperchromic, and hypochromic shifts of the absorptions (Figure 6). This phenomenon has been clearly demonstrated on hesperetin and its derivatives by Sykula and et al [28]. The derivatives contained the same substituents such as thiosemicarbazide, isoniazid, and benzhydrazide as the compounds in this work.…”

“…Moreover, the spectra for all studied compounds in an acidic environment showed decreased intensity in the region of the first absorption band, while the second band was more intense (Figure 6a). This could be caused by substituent groups in system B of the Schiff base molecules, which was also reported in the work of Sykula et al [28]. The molecular configurations indicated that the substituted groups (thiocarbohydrazide, thiosemicarbazide, isoniazide, and benzhydrazide) had an impact on π-electron transfers in the conjugated flavanone molecules.…”

“…N ′,2-bis(( E )-2-phenylchroman-4-ylidene)hydrazine-1-carbothiohydrazide ( FTCH 2:1 ). The ligand (2) has been prepared according to literature procedure [ 28 ]. Yield: 0.2 g, 38%; m.p.…”

Structural and Spectral Investigation of a Series of Flavanone Derivatives

“…In consequence, such reactions are unlikely to occur in a significant number, and conventional studies in nonpolar media focus solely on RAF and HAT, with the remaining pathways being completely ignored. 60 , 63 , 106 , 121 , 139 , 143 …”

“… 59 , 93 , 98 , 100 , 103 − 105 All of the listed substances are being heavily modified in an effort to identify derivatives with an improved safety profile and enhanced radical scavenging potential. 23 , 36 , 102 , 106 − 114 , 46 , 115 − 124 , 83 , 125 , 86 , 87 , 89 , 94 , 96 , 101 …”

Current Trends in Computational Quantum Chemistry Studies on Antioxidant Radical Scavenging Activity

Spectral, DFT—TDDFT computational investigation and biological studies of transition metal complexes of dehydroacetic acid schiff base